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The effect of hypothalamic deafferentation upon levels of LH-RH in brain, cerebrospinal fluid, and plasma was studied in adult male rats. Deafferentation produced a significant increase in the LH-RH concentration of third ventricular CSF (from 140.6 to 343.9 pg/microl), while there was no change in median eminence or hypothalamic content. LH-RH in the pineal gland and the posterior pituitary was also elevated by hypothalamic isolation.

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Sudden injections of boluses containing both 131I-albumin and 24NaCl were made into the coronary artery inflow of isolated blood-perfused dog hearts. Indicator dilution curves were recorded using gamma emissions from both the intact heart and the coronary sinus outflow, with plasma flows, Fs, ranging from 0.3 to 1.8 ml/g min-1. Three measures of sodium extraction, E, during transcapillary passage were obtained from each site by comparison of the sodium and albumin curves. The most useful estimates of E were "instantaneous extractions" obtained from the later part of the upslope and the peak of the venous dilution curves (coronary sinus) or from the corresponding early phase of washout of the externally monitored curves (intact organ). Extractions were lower at higher flows. Permeability-surface area products, PS, were computed (1) by the formula PS equals -Fsloge(1 - E), (2) by fitting the observed dilution curves with a Krogh capillary-tissue cylinder model, and (3) by the approximating formula PS equals -Fsloge (1 - 1.14E). The two latter approaches provided a correction for back diffusion of tracer from tissue to blood. For sodium, the values of PS averaged 0.88 +/- 0.36 (SD) ml/g min-1, (n equals 52). At high flows, with Fs greater than 1.0 ml/g min-1, the values of PS averaged 1.01 +/- 0.38 ml/g min-1 (N equals 11). Assuming S equals 500 cm2/g and plasma to be 93% water, our findings suggest capillary permeabilities for sodium of about 3.1 times 10(-5) cm/sec.

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Indicator dilution experiments were done to determine the extraction of 85Sr during a single passage through capillaries of the tibial diaphysis. Extraction was estimated by injection of 85SrCl2 and a nonpermeant, reference tracer, T-1824-labeled albumin, into the nutrient artery and recording of the effluent venous dilution curves (femoral vein). The mean (+/- SD) maximal instantaneous extraction was 0.53 +/- 0.08 (N = 12). Net retention after 10 min, estimated from venous curves, was 0.41 +/- 0.06 (N = 12), which appeared not substantially different from the retention estimated by direct isotope counting of the tibias for 85Sr, 0.35 +/- 0.06 (N = 12). In a second set of experiments in intact animals, tibial 85Sr extraction after intravenous injection was apparently higher, 0.53 +/- 0.28 (N = 15). Values of tibial diaphyseal blood flow, estimated from washout curves for iodoantipyrine after tibial nutrient artery injection, were 1.47 +/- 0.63 ml/min per 100 g (N = 27). The extraction was not much diminished by higher flows. The estimates of permeability-surface area product (PS) for bone capillaries did increase with flow, suggesting recruitment of more capillaries at higher flows. PS values averaged 0.63 +/- 0.29 (N = 12); we conclude that the capillary membrane is a primary barrier to the passage of 85Sr and presumably other small hydrophilic solutes.

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The synthesis of bulk ribosomal protein (r-protein) after a nutritional shift-up in Escherichia coli B/r was examined. It was found that the molar ratio of the net synthesis rates of 30S and 50S r-protein remains constant during the transition period after the shift-up and equal to the preshift ratio. The implications for the control of ribosome synthesis are discussed.

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By analysing the kinetics of beta-galactosidase accumulation after induction, the synthesis time of beta-galactosidase in Escherichia coli B/r was found to be 75s in rapidly growing cells (1.36 and 2.1 doublings/h), and 90s in slowly growing cells (0.63 doubling/h). These values correspond to peptide-chain-elongation rates of 16 and 13 amino acids/s respectively, in agreement with previous findings, indicating that the peptide-chain growth rate is constant (presumably maximal) in fast-growing bacteria, but decreased in slowly growing bacteria [Forchhammer & Lindahl (1971) J. Mol. Biol. 55, 563-568].

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Cells from most patients with xeroderma pigmentosum (XP) can be shown to be defective in repairing ultraviolet (UV) light-induced damage to their DNA, for they have a reduced rate of UV-induced thymidine incorporation. XP variants, however, have clinical manifestations of XP, but all their tissues tested to date have a normal rate of UV-induced 3H-thymidine incorporation. We have now tested tumor cells from an XP variant and from a typical XP patient. The variant's tumor cells, in contrast to those of the typical patient, had no detectable defect in their UV-induced thymidine corporation. We conclude, therefore, that the cells that formed tumors in this XP variant resemble his other cells in DNA repair capacity, and do not represent a minor cell population with the kind of DNA repair defect that is reflected in reduced UV-induced thymidine incorporation.

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Employing mercaptoethylamine as a reducing agent, it was demonstrated by analytical ultracentrifugation and polyacrylamide gel electrophoresis that polymeric immunoglobulin A (IgA) was reduced to a 10 S dimer and 7 S monomer, and that dimer IgA was more resistant to reductive cleavage than the higher polymers. When dimer and monomer IgA were subjected to electrophoresis in polyacrylamide gels in 8 M urea or chromatographed on Bio-Gel P-200 equilibrated in 4 M guanidine HCl, there was no dissociations into H, L, or J chains, suggesting that the interchain disulfide bridges between H--H, L--H, and H--J were intact and that mercaptoethylamine produced selective cleavage of intersubunit bonds. Only the dimer, with a sedimentation coefficient of 10.2 S, released J chain upon reduction with dithiothreitol. Polymers of IgA were reduced with mercaptoethylamine and subsequently alkylated with [14C]-iodoacetamide and the dimer and monomer isolated. The results demonstrated that the isolated dimer contained 2 mol of [14C]labeled S carboxyamidomethylcysteine per mol of dimer, while the monomer contained 1 mol of --SH per mol of monomer. The labeled dimer was then completely reduced with dithiothreitol and alkylated with [14C]iodoacetamide and J chain isolated. It was shown that the J chain contained no 14C-labeled sulfhydryl groups, while the monomer contained 1 mol of --SH per mol of monomer. These results suggest that J chain is disulfide-bonded to only two of the subunits of polymeric IgA and that the remaining subunits in the higher polymers are disulfide-bonded one to the other. This is similar to the model previously suggested for 19 S immunoglobulin M (IgM). The sulfhydryl data also suggests that polymeric IgA may not be a covalently bonded circular structure as has been shown for IgM. However, no conclusions can be made from this study regarding the structure of pentameric IgA, since this species was present in very small amounts in our polymer preparation.

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The present investigation has compared the influences of phorbol myristate acetate (PMA) and heat-killed bacteria (HKB) on oxygen consumption and glucose oxidation by polymorphonuclear leukocytes (PMN) from carriers of sex-linked chronic granulomatous disease (CGD). PMA or HKB caused neutrophils from CGD carriers, considered as a group, to consume oxygen and oxidize glucose-1-14C at rates that were statistically distinguishable from rates of normal controls and affected CGD hemizygotes. PMA at a final concentration of 1.0 micrograms per milliliter wass more effective and reproducible than a ratio of 50 HKB: 1 PMN in discriminating the partial abnormality of carrier PMN from normal PMN. Moreover, a deficiency in glucose oxidation by the PMN of one individual carrier was detectable using PMA stimulation when no defect was apparent with HKB. Results of the present investigation confirm and extend previous observations which have demonstrated the similarity in responses of PMA-treated normal and CGD PMN to the reactions produced by particulates under similar conditions.

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Tetraphenylborate-induced current transients were studied in lipid bilayers formed from bacterial phosphatidylethanolamine in decane. This ion movement was essentially confined to the membrane in terior during the current transients. Charge movement through the interior of the membrane during the current transients was studied as a function of the applied potential. The transferred charge approached an upper limit with increasing potential, which is interpreted to be the amount of charge due to tetraphenylborate ions absorbed into the boundary regions of the bilayer. A further analysis of the charge transfer as a function of potential indicates that the movement of tetraphenylborate ions is only influenced by a certain farction of the applied potential. For bacterial phosphatidylethanolamine bilayers the effective potential is 77 +/- 4% of the applied potential. The initial conductance and the time constant of the current transients were studied as a function of the applied potential using a Nernst-Planck electrodiffusion regime. It was found that an image-force potential energy barrier gave a good prediction of the observed behavior, provided that the effective potential was used in the calculations. We could not get a satisfactory prediction of the observed behavior with an Eyring rate theory model or a trapezoidal potential energy barrier.

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Because some baboons repeatedly infused with somatostatin died we reviewed available autopsy material. All six animals chronically treated with somatostatin displayed gross or microscopical pulmonary hemorrhage and increased hemosiderin in lung and liver whereas only one of six untreated animals had a similar abnormality. We therefore examined the hemostatic system in living baboons. Thrombocytopenia (mean platelet count of 84,000 per microliter) was noted in six of seven baboons chronically treated with somatostatin; platelet survival was normal. Clotting factors were unaffected. Fibrinogen concentration and survival were unchanged. The acute effects of intravenous somatostatin (0.8 micrograms per kilogram per minute for two hours) in previously untreated animals transiently decreased platelet count, reduced retention of platelets on glass-bead columns and inhibited aggregation induced by ADP, collagen and epinephrine. Bleeding times were not prolonged. Somatostatin added to platelet-rich plasma in vitro was without effect. These data suggest that prolonged administration of somatostatin should be undertaken with caution.

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Preliminary evidence has suggested that somatostatin might interfere with platelet function in the baboon. Because this agent is currently being administered experimentally to human beings, we studied its effect on coagulation and platelet function in man. In five subjects, a four-hour infusion of somatostatin (500 micrograms per hour) had no definite effect on platelet count, leukocyte count, hematocrit, platelet adhesiveness and aggregation, bleeding time, partial thromboplastin time, prothrombin time, and fibrinogen levels. A similar infusion for 18 hours in three subjects was likewise without effect. These studies indicate that somatostatin does not affect coagulation and platelet function in man and that its prolonged administration lacks ostensible toxicity.

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Trisegmentectomy, extended right hepatic lobectomy, is the removal of the true right lobe of the liver in continuity with most or all of the medial segment of the left lobe. Some important features of the operation have not been well described previously. To perform trisegmentectomy safely, a fusion of liver tissue covering the umbilical fissure at the level of the falciform ligament must first be split open in many patients. The left branches of the portal triad structures are mobilized from the undersurface of the liver nearly to but not into the umbilical fissure. The blood supply and duct drainage of the medial segment originate within the umbilical fissure and feed back toward the right side buried in liver substance. They are found with blunt dissection just to the right of the falciform ligament, encircled and ligated. Failure to appreciate this switch back anatomic arrangement may lead to injury of the blood supply or biliary drainage of the residual lateral segment. Parenthetically, the mirror image operation of lateral segmentectomy could result in devascularization of the medial segment if dissection and ligation were performed within the umbilical fissure instead of well to the left of this landmark. In most trisegmentectomies, the left portion of the caudate lobe is not removed. This small piece of tissue is interposed between the lateral segment and the inferior vena cave into which it drains by small tributaries. If the left portion of the caudate lobe is to be excised, it is necessary to ligate the last two posteriorly running branches before the main left trunks of the portal triad structures reach the umbilical fissure. Once this step is taken and if the caudate removal is completed, the remaining lateral segment usually has only one remaining outflow, that of the left hepatic vein. The other principles of trisegmentectomy are the same as with less radical subtotal hepatic resection. These include vascular suture closure of the main outflow veins, avoidance of parasegmental planes that leave behind a strip of devitalized tissue, preservation of intersegmental or interlobar veins, omission of techniques that sew shut or otherwise cover the raw surface of the remnant and provision of adequate drainage of dead space. After trisegimentectomy and also after true lobectomy, this last objective is usually met by leaving part of the operative incision open. Using these guidelines, there has been no mortality with 27 hepatic resections carried out since 1963, including 14 trisegmentectomies.

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Xeroderma pigmentosum (XP) is an autosomal recessive disease with tumor formation on sun-exposed areas of the skin and eyes. Cells from most XP patients are deficient in repairing DNA damaged by ultraviolet (UV) light as shown by a reduced rate of tritiated thymidine (3HTdR) incorporation during their DNA repair synthesis. We have studied such repair synthesis in conjunctival cells from an XP patient with a conjunctival epithelioma and from normal cadaver conjunctiva. Cultured conjunctival cells were irradiated with UV light and then incubated with 3HTdR. Autoradiograms were prepared and showed that UV radiation induced a considerably slower rate of DNA repair synthesis in the XP cells than in normal cells. Many of the ocular abnormalities of XP, including tumor formation, may be the result of this defective DNA repair process.

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The maximal rates of the protein kinase (ATP: protein phosphotransferase, EC 2.7.1.37) reaction studied with chicken egg yolk phosvitin as substrate are dependent on the level of dephosphorylation of phosvitin. 30 per cent dephospho-phosvitin gives the optimal initial rates. With varying levels of dephosphorylation, the apparent Km for the substrate also changes in a biphasic manner. If this factor is taken into account, and a suitable adjustment is made for the concentration of dephospho-phosvitin in the reaction it is possible to achieve maximal rates for the kinase reaction with phosvitin preparations of varying levels of dephosphorylation. Such a consideration is important for comparing the results of protein kinase studies using phosvitin as the substrate.

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The interaction of a soluble homogeneous preparation of D-beta-hydroxybutyrate apodehydrogenase with phospholipid was studied in terms of restoration of enzymic activity and complex formation. The purified apoenzyme, which is devoid of lipid, is inactive. It is reactivated specifically by the addition of lecithin or mixtures of phospholipids containing lecithin. Mitochondrial phospholipid, i.e. the mixture of phospholipids in mitochondria, reactivates with the highest specific activity (approximately 100 micromol of DPN reduced/min/mg at 37 degrees and with the greatest efficiency (2.5 to 4 mol of lecithin/mol of enzyme subunit). Each of the lecithins of varying chain length and unsaturation reactivated the enzyme, albeit to differing extents and efficiencies. In general, lecithins containing unsaturated fatty acid moieties reactivated better than those containing the comparable saturated lipid. Optimal reactivation can be obtained for the various lecithins when they are microdispersed together with phosphatidylethanolamine. When the lecithins are added microdispersed together with both phosphatidylethanolamine and cardiolipin, maximal efficiency is obtained. Also, PC6:0 and 8:0 reactivate as soluble molecules, so that a phospholipid bilayer is not necessary to reactivate the enzyme. Complex formation was studied using gel exclusion chromatography. It can be shown that each of the phospholipids which reactivate combines with the apoenzyme. Mitochondrial phospholipid, which reactivates the best, binds most effectively; PC8:0, which reactivates with poor efficiency, can be shown to bind with low affinity, and negligible binding occurs at concentrations which do not reactivate the enzyme. Since the apoenzyme is apparently homogeneous and devoid of phospholipid or detergents, it would appear that reactivation does not involve reversal of inhibition such as by removal of a regulatory subunit or detergent from the catalytic subunit. Rather, we conclude that phospholipid is a necessary and integral portion of this enzyme whose active form is a phospholipid-protein complex. The apoenzyme also forms a complex with phosphatidylethanolamine and/or cardiolipin, which do not reactivate enzymic activity. Salt dissociates such complexes in contrast with the lecithin-apoenzyme complex. Binding of phospholipid is a necessary but not sufficient requisite for enzymic activity. The same energies of activation are obtained from Arrhenius plots for the membrane-bound enzyme and for the purified soluble enzyme reactivated with mitochondrial phospholipid or different lecithins. This observation is compatible with the view that the purified enzyme has not been adversely modified in the isolation. Furthermore, essentially the same energies of activation were obtained for saturated lecithins below their transition temperatures and for unsaturated lecithins above their transition temperatures. Hence, there is no indication that a lipid phase transition occurs to influence the activity of this enzyme.

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A medium for detecting colonies of Actinomyces viscosus and Actinomyces naeslundii in dental plaque samples was developed. The medium (CNAC-20) contains 20.0 mug of 3CdSO4-8H2O per ml of Columbia CNA agar base. Laboratory strains of A. viscosus grew on CNAC-20 in characteristic round, white, smooth, opaque colonies. Increasing the cadmium concentration impaired the growth of some A. viscosus strains. Stock strains of A. naeslundii and A. israelii grew in colonies of similar white, opaque morphology. The few strains of other gram-positive plaque bacteria that grew on CNAC-20 had colonies easily distinguished from those of A. viscosus. Most of the bacterial strains freshly isolated from Actinomyces-like colonies on CNAC-20 that had been inoculated with human dental plaque samples were found to have cultural characteristics consistent with previous descriptions of A. viscosus or A. naeslundii. CNAC-20 may facilitate investigations into the relationship of microaerophilic Actinomyces with the etiology of dental diseases.

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The acute influence of portal blood hepatotrophyic factors upon the canine liver and upon hepatic regeneration was studied after surgical operations which provided qualitatively different portal venous perfusion to the right and left liver lobes. With one such procedure called splanchnic division, the nutrient rich venous return from the intestines was directed to the left lobes, whereas the hormone rich blood from the pancreas and other splanchnic organs of the upper part of the abdomen passed to the right lobes. Within three to five days, the rate of cell division on both liver sides was increased as judged by autoradiography, but the hormone influenced right lobes exhibited hypertrophy and hyperplasia relative to the nutrient enriched left lobes. In the latter, the hepatocytes underwent pronounced atrophy, deglycogenation, depletion or distortion of the rough endoplasmic reticulum, fatty vacuolization and other structural changes. When 30 or 60 per cent hepatic resection was carried out at the same time as splanchnic division, the regeneration of the hormone dominated hepatic tissue after three to five days was greater than that of the hepatic tissue receiving the intestinal venous effluent, as judged by multiple criteria, although both liver sides participated in the regeneration process. The advantage enjoyed by the right liver lobes in relation to the left liver lobes both in the resting or in the regeneration state after splanchnic division was reduced or eliminated by pre-existing alloxan-induced diabetes or after concomitant total pancreatectomy. Similar, but less complete, observations about the effect of pancreatectomy were made in dogs submitted to the procedure of partial portacaval transposition, in which all the splanchnic venous blood passed to the right lobes, whereas the left lobes were revascularized with systemic venous blood from the vena cava. These observations have added to the recent torrent of evidence that insulin is the most easily demonstrable and, therefore, probably the most important specific hepatotrophic factor in portal venous blood. At the same time, further subtle support has been added to our previously proposed hypothesis that mutliple other hormonal and possibly nonhormonal factors from the splanchnic viscera and other sources also contribute to the essence of the hepatotrophic effects. These effects were evident and quite advanced within a few days. A prominent hepatotrophic role of glucagon was not identifiable.

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Asynchronous human lymphoma cells treated for 1 hour with increasing concentrations of cis-dichlorodiammineplatinum(II) revealed a marked decrease in survival as estimated by the colony-forming technique. When the treatmentwas extended for 8 hours at a concentration of 5micrograms/ml, a killing effect (greater than 3 log decades) was observed which was similar to that obtained when 50micrograms/ml is incubated with the cells for 1 hour. This finding suggests that better antitumor effects with fewer toxic effects may be obtained clinically by prolonged infusion of low doses of cis-dichlorodiammineplatinum (II). Synchronized lymphoma cells showed no significant degree of cell-cycle-stage sensitivity to cis-dichlorodiammineplatinum (II). The drug kills cells with similar efficiency in all stages of the cell cycle. No killing effect was elicited after incubation of the cells with spironolactone, a compound said to protect the kidneys from the toxic effects of heavy metals. However, simultaneous incubation of spironolactone and cis-dichlorodiammineplatinum (II) did not prevent the lethal action of the second drug. If spironolactone is proven to be an inhibitor of cis-dichlorodiammineplatinum (II) nephrotoxicity, it will become a valuable addition to the treatment of human neoplasia with this platinum compound. Lymphoma cells given a "priming" dose of 10 micrograms/ml of cis-dichlorodiammineplatinum (II) failed to repair the induced damage. A second exposure to 10 micrograms/ml of the drug at various subsequent intervals elicited greater killing effect than that produced by 20 micrograms/ml given at one time. A clear synergistic effect was noted when cis-dichlorodiammineplatinum (II) was given simultaneously with camptothecin or BCNU. The molecular mechanism by which this effect is accomplished is not presently apparent.

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From venous tracer-dilution curves recorded after 36 pulse injections of 42KCl and 131I-labeled albumin into the coronary artery inflow of 15 isolated canine heart preparations, we calculated maximal fractional extractions (Emax) and capillary permeability-surface area products (PScap) for 42K+ over a range of plasma flows (FP) from 0.3 to 1.7 ml min-1 g-u. At low FP (less than 1.0), Emax was 0.60 +/- 0.0l (mean +/- SD) and PScap was 0.72 +/- 0.20 ml min-1 g-1; at high FP (greater than 1.0), Emax decreased to 0.49 +/- 0.05 and PScap increased to 1.06 +/- 0.18. Continuous recording (gamma detector) of residual myocardial 42K+ in seven hearts showed that the mean fractional escape rate of tracer between 30 and 60 min after injection was 0.011-0.023 min-1; higher rates were observed at high FP, when the residue of 42K+ decreased to less than 10% of the injected dose by 60 min. Using PScap measured at high FP and considering the virtual intracellular volume of distribution for K+ to be 20 ml/g, we calculated the permeability-surface area product for sarcolemma (PScw) as 0.54-0.73 ml min-1 g-1, or about 50% of PScap. Considering sarcolemmal surface area (Scw) as 4,200 cm2/g and capillary surface area (Scap) as 500 cm2/g, cell permeability is low, with Pcw:Pcap being less than 0.08.

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Intracisternal administration of 200 mug of 5,7-dihydroxytryptamine (5,7-DHT) caused a prolonged reduction of brain serotonin which was accompanied by a depletion of brain norepinephrine. The depletion of norepinephrine was found to be antagonized by agents that inhibit uptake of norepinephrine as well as by several monoamine oxidase inhibitors. Intracisternal injections of 5,7-DHT (75 or 100 mug) to 7-day-old neonatal rats reduced brain serotonin and norepinephrine and produced a significant reduction of adult body weight. As in adults, pretreatment of neonatal rats with pargyline or desipramine prevented 5,7-DHT induced depletion of norepinephrine without affecting depletion of serotonin. Behaviorally, treatment of adult rats with 5,7-DHT facilitated acquisition of an active avoidance task and enhanced muricidal behavior. 5,7-DHT treatment was also found to enhance the depressant effects of 5-hydroxytryptophan on a fixed-ratio barpress response, suggesting that 5,7-DHT treated rats are supersensitive to serotonin in the central nervous system.

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A collaborative study was undertaken to determine the relationship between the three DNA repair complementation groups in xeroderma pigmentosum found at Erasmus University, Rotterdam, and the four groups found at the National Institutes of Health, Bethesda. The results of this study reveal that there are five currently known complementation groups in xeroderma pigmentosum.

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A method proposed by MacMahon for the differentiation between familial and environmental causes for disease has recently been applied to demonstrate an environmental etiology for Hodgkin's disease. It is shown that the method, which depends on the comparison of time-of-onset differences with age-at-onset differences for familial pairs with disease, is biased toward results suggestive of an environmental etiology when applied to data of the kind typically analyzed--data restricted to instances in which both members of a familial pair develop disease in a specified, limited time interval. Other features of such data are discussed.

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A unique variant of Darier disease is described in which a patient was disabled by large, painful, cutaneous horns present on all extremities. The cornified lesions were distinguished by the presence of numerous corps ronds in the basal portion of the greatly hyperkeratotic stratum corneum, hypertrophic dermal villi containing enlarged capillaries, vacuolar dilatation of rough endoplasmic reticulum in sublacunar basal cells, unusually numerous Odland bodies in spinous cells adjacent to lacunae, and persistent attachment of tonofilaments to disrupted desmosomes. Complete separation of tonofilaments from intact desmosomes was not observed. Scanning electron microscopy revealed varied surface morphological appearances of corps ronds and of the epidermal cells covering the elongated dermal villi. The surface cells of cutaneous horns showed little tendency to desquamate.

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A case of severe cornifying Darier disease (keratosis follicularis) was successfully treated by deep dermal excision of diseased skin and subsequent dermabrasion, resulting in a remission lasting more than four years to date. Persistent loss of the papillary dermis was observed in the surgically treated, disease-free areas.

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Bovine free secretory component was purified from whey by salt precipitation, gel filtration, DEAE-cellulose and phosphocellulose chromatography, and immunoadsorption. It was obtained in immunologically pure form and in 56% yield. The Stokes radius of pure free secretory component was found to be 4.3 nm by gel filtration, and an (see article) of 4.1 S was determined by the ultracentrifuge. The molecular weight was 79,000 by sodium dodecyl sulfate gel electrophoresis and by sedimentation dquilibrium in the ultracentrifuge, using a v of 0.73 determined by ultracentrifugation in D2O and H2O. A minimal axial ratio of approximately 5 was calculated. Amino acid analysis of bovine free secretory component showed remarkable similarity to that of human, dog, and rabbit but carbohydrate analysis showed significant differences. In contrast to the human, bovine free secretory compoennt has 2 methionine residues/mol. The NH2-terminal sequence was found to be Lys-Ser-Pro-Ile-PPHE-Gly-Pro-Glu-Glu-Val-Asp-Ser-Val. This sequence is identical with that the human and dog. However, the poor immunological cross-reactivity between the dog, human, and bovine proteins suggests that significant structural differences will be found in other regions of the molecule.

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Protein phosphokinase activities of nucleolar and extra-nucleolar compartments of rat ventral prostate nuclei were measured using the model acidic phosphoprotein, dephosphophosvitin, as substrate. Following orchiectomy, the activity in both of these fractions declined; however, the kinase activity of the nucleolus decreased at a much greater rate than that in the extra-nucleolar portion of the nucleus. Testosterone maintenance of castrated animals prevented this decline in activity. The regulation of protein phosphokinases which phosphorylate prostatic nucleolar acidic proteins may be an important mechanism in the androgen mediated activation of the nucleolus in this target tissue.

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Silver-staining of immunoprecipitates extends the sensitivity of the radial immunodiffusion assay by tenfold. This modification permits the quantification of apolipoproteins A-I, A-II, C, and E at levels of 0.2-1.0 mg/dl in plasma samples at a sensitivity threshold of 10 ng. The silver-enhanced radial immunodiffusion method is readily adapted from the standard method, simple and inexpensive to perform, and does not require costly instrumentation. These advantages make the modified RID assay an attractive alternative to other forms of immunoassay.

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The objective of this study was to investigate how a conformational change in lipoprotein lipase (LPL) affects its molecular functions. Monoclonal antibodies (MAbs) were raised against purified bovine milk lipoprotein lipase. MAb 5D2 bound to human and bovine LPL both before and after denaturation of LPL. MAb 5F9 also recognized LPL from both species, but only after denaturation of the antigen, suggesting that a conformational change led to exposure of a previously hidden epitope. The MAbs were used in two sandwich enzyme-linked immunosorbent assays (ELISAs). One ELISA used the same MAb (5D2) to coat the plate and detect the bound antigen. This ELISA thus required the same epitope to be present in duplicate for detection (as would be the case with a dimeric antigen). The second ELISA used MAb 5F9 to coat the plate and MAb 5D2 to detect the antigen. This ELISA detected LPL only after it had been denatured. By measuring the same sample before and after denaturation with guanidine hydrochloride (GuHCl) in the 5F9 ELISA, and subtracting one from the other, a measure of native LPL was obtained. In inactivation experiments using human LPL, activity and the measure of LPL mass obtained in the 5D2 ELISA decreased and were related inversely to the measured mass obtained in the 5F9 ELISA which increased, indicating that loss of activity is closely linked to dimer dissociation and loss of native conformation. The effect of conformation and dimeric structure on LPL-heparin interaction was studied by heparin-Sepharose chromatography.(ABSTRACT TRUNCATED AT 250 WORDS)

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Monoclonal antibodies (mAb) utilized in regeneration studies to date identify antigens that are up-regulated in the blastema. We obtained a monoclonal antibody, designated ST1 (Stump 1), that is reactive to an extracellular matrix (ECM) antigen exhibiting the opposite distribution; ST1 is an abundant antigen of the limb stump soft tissues but is absent from within the blastema. The border between abundance and absence of mAb ST1 reactivity was sharp and extended as a concavity into the stump. This distinct dichotomy led to further studies relevant to understanding how this extracellular matrix antigen is modulated during regeneration. mAb ST1 reactivity decreased in the internal tissues at the distal end of the limb prior to blastema formation and remained absent until the onset of differentiation. The initial decrease in mAb ST1 reactivity was dependent on the combined effects of injury and the wound epithelium but was nerve independent. At blastema stages of regeneration, the distribution of tenascin, ascertained by mAb MT1 reactivity, closely matched the area without reactivity to mAb ST1. The spatial and temporal distribution of the ST1 antigen in unamputated limbs and during regeneration did not correspond to any previously described ECM component.

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We analysed the antigenic properties of human cytomegalovirus (CMV) glycoprotein B (gB) by constructing a set of deletion derivatives lacking different portions of the carboxy terminus and reacting them with a panel of monoclonal antibodies with neutralizing activity. We found that two novel antigenic domains that bind neutralizing antibodies were assembled on truncated forms of gB, one in the amino-terminal half and one that spans the midregion of the molecule. Assembly of the conformation-dependent epitopes occurred independently of residues in the carboxy-terminal half of the molecule and did not depend on proteolytic cleavage of the molecule between amino acids 460 and 461. Ten antibodies recognized a derivative with 447 amino-terminal residues; their failure to recognize a derivative 411 residues long suggested that the amino acids required for assembly of these epitopes either were incorrectly folded, or had been totally or partially deleted in this derivative. Epitopes for three antibodies with complement-independent neutralizing activity were assembled when amino acids from the midregion of gB between residues 447 and 476 were present. Two other antigenic domains were formed by the addition of residues 476 to 618 and 619 to 645 from the carboxy-terminal half of gB. Our results underscore the importance of conformation in the antigenic structure and functional properties of both the amino- and carboxy-terminal portions of gB.

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In zebra finches, only males sing, and the neural regions controlling song exhibit prominent, hormone-induced sex differences in neuron number. In order to understand how sexual differentiation regulates neuron number within one song nucleus, the lateral magnocellular nucleus of the anterior neostriatum (IMAN), we studied the development of sex differences among IMAN neurons that project to the robust nucleus of the archistriatum (RA). The IMAN is implicated in song learning, and previous ontogenetic studies have indicated that males lose over 50% of their IMAN neurons during the juvenile song learning period. Based on developmental changes in both the extent of androgen accumulation within the IMAN and its appearance in Nissl-stained tissue, it had been hypothesized that IMAN neuron loss was even greater in young females, resulting in sex differences in neuron number. However, this hypothesis has not been tested directly because the Nissl-stained boundaries of the IMAN sometimes are ambiguous in young animals, and are not evident at all in adult females. To circumvent these problems, we employed the retrograde tracer fast blue to study the development of IMAN neurons defined on the basis of their projections to the RA. We find that the number of these IMAN-RA projection neurons is much greater in adult males than in females, and that this sex difference develops during the juvenile period of sexual differentiation and song learning because a significant number of these neurons are lost in females but not in males. With respect to sexual differentiation, we conclude that masculinization (which is stimulated by the hormone estradiol) promotes the retention of IMAN-RA projection neurons. In addition, our results indicate that any loss of IMAN neurons that may occur in young males does not include cells projecting to the RA.

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Synthetic analogues of the iron-bleomycins, namely [Fe(PMA)]2+ and [Fe(PMA)]+, have been studied as oxotransfer agents. Oxygen transfer has been observed using iodosobenzene (PhIO), hydrogen peroxide, and dioxygen as oxygen sources. The primary substrates were cis- and trans-stilbene. The products were determined to be cis- and trans-stilbene oxide, benzaldehyde, and deoxybenzoin. These products were recovered in ratios similar to those reported for the iron-bleomycins, albeit in lower yields. Iron complexes of simpler analogues are inactive as oxotransfer agents. This study provides further support that PMAH is an accurate model of the metal binding region of bleomycin.

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Binding of DL-alpha-[3H]amino-3-hydroxy-5-methyl-isoxazole-4-propionic acid ([3H]AMPA) to lysed rat brain membranes in the presence of potassium thiocyanate resulted in curvilinear Scatchard plots that could be resolved by regression analysis into a large low-affinity component and a small high-affinity component. Solubilization with Triton X-100 resulted in solubilized and nonsolubilized fractions that were considerably enriched in the high-affinity component and correspondingly reduced in the low-affinity component. It thus appears that solubilization converts low-affinity AMPA receptors into high-affinity receptors. Also, synaptic plasma membranes were found to be greatly enriched in the low-affinity form and deficient in the high-affinity form of the AMPA receptor. These experiments provide evidence for the hypothesis that the high- and low-affinity components of AMPA binding are interconvertible states of the same receptor rather than separate binding sites and that the conversion of these receptors from their native high-affinity state to the low-affinity state occurs on insertion of the receptors into synapses.

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The aim of the study was to test whether the synthesis of substance P (SP) and that of its receptor (also known as NK1 receptor) are coordinately regulated after chronic pharmacologic intervention in two neural systems, the spinal cord and basal ganglia. In one set of experiments, capsaicin was administered subcutaneously during the early postnatal period (day 3 after birth) to induce degeneration of afferent sensory neurons in the spinal cord. In the other set of experiments, interruption of dopaminergic transmission was achieved by two methods: (a) The neurotoxin 6-hydroxydopamine was used to denervate dopaminergic neurons during the early postnatal period, and (b) haloperidol was used in adult animals to block dopaminergic transmission by receptor blockade. The spinal cord, striatum, or both were used for the quantification of tachykinin [SP and neurokinin A (NKA)] and opioid peptides [[Met5]-enkephalin (ME) and dynorphin A (1-8) (DYN)] by radioimmunoassays. The abundance of total SP-encoding preprotachykinin (PPT) mRNA and SP receptor (SPR) mRNA in spinal cord (C5 to T1 segments), striatum, or microdissected substantia nigra was determined by northern blot or solution hybridization analysis. Amines and their acid metabolites were quantified by HPLC. Capsaicin administration (subcutaneously) during the early postnatal period increased latency in a hot-plate test, decreased SP and NKA levels, increased levels of PPT mRNAs, and did not affect SPR mRNA levels in the spinal cord. Intraspinal SP systems may attempt to compensate for the loss of afferent SP input, whereas spinal cord receptor mRNA levels do not appear to be altered.(ABSTRACT TRUNCATED AT 250 WORDS)

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The sensitivity of sensory neurons to target cell denervation varies in the CNS. We have examined the effects of surgically interrupting the output axons of the first optic neuropil, or lamina, in the optic lobe of the fly (Musca domestica), upon the receptor terminal inputs to the lamina. Two of the output interneurons are the monopolar cells L1 and L2, which are found as a pair in each of the unit modules or cartridges of the lamina neuropil. The lamina axons of L1 and L2 degenerate rapidly (within 0.5 h) in a retrograde direction from their lesion site, but there is no sign of retrograde transneuronal degeneration to the receptor terminals, across the input synapse. At each of these synaptic sites, L1 and L2 are invariable contributors to two of the four elements of a postsynaptic tetrad. Not only do the receptor terminals persist, but the presynaptic ribbons at the tetrad sites do also, opposite the degenerated spines of L1 and L2, indicating their lack of target dependence at least over the longest period of post-lesion recovery (48 h) examined. The areal density of presynaptic sites was conserved in the face of the degenerative loss of L1 and L2, as were the numbers of capitate projections (glial invaginations into receptor terminals). The stability of both synaptic density and capitate projection number indicates that they are predominantly influenced by the receptor terminals, which are still intact. A reduction in the number of mitochondrial profiles was one of the few observed changes in the receptor terminals. The results reflect the autonomy which the terminals have, during development, from their interneurons; they especially reflect the role of the terminals in the adult, in maintaining the presynaptic site of their afferent synapses, the tetrads.

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1. To perform simulations of the various modes of action potential generation in thalamic relay neurons, we developed Hodgkin-and-Huxley style mathematical equations that describe the voltage dependence and kinetics of activation and inactivation of four different currents, including the transient, low-voltage-activated Ca2+ current (IT), the rapidly inactivating transient K+ current (IA), the slowly inactivating K+ current (IK2), and the hyperpolarization-activated, mixed cationic current (Ih). The modeled currents were derived either from acutely dissociated rat thalamic relay neurons (IT, IA, IK2), or from guinea pig thalamic relay cells maintained in slices in vitro (Ih). 2. The voltage dependence of steady-state activation and inactivation of IT, IA, and IK2 and the activation of Ih could be modeled with Boltzmann-style equations. Modeling of the behavior of IT to depolarizing steps in voltage clamp required the use of the constant field equation to relate permeability to T-current amplitude. The time constant of activation of IT was described by a continuous bell-shaped function with a maximum near 15 ms at threshold for activation (-75 mV) and 23 degrees C. Mathematical description of the kinetics of inactivation and removal of inactivation of this current required two separate functions. 3. The rapidly activating and inactivating K+ current IA was modeled by assuming two components with different time constants of inactivation. The kinetics of activation was described as a continuous function of voltage with the slowest time constant, near 2.5 ms, at threshold for activation (-60 mV) and 23 degrees C. In contrast, the kinetics of inactivation of both components were described as voltage independent, consistent with experimental data. The rate or removal of inactivation of both components of IA was described as continuously increasing with the degree of hyperpolarization. 4. The slowly inactivating K+ current IK2 was also modeled by assuming two components with different rates of inactivation. The kinetics of activation were described by a bell-shaped function with a maximum time constant near 80 ms at -40 mV and 23 degrees C, whereas threshold for activation was approximately -60 mV. Inactivation of both components was modeled as relatively independent of voltage, whereas removal of inactivation was described as a continuous function of membrane potential. 5. The hyperpolarization-activation cationic current, Ih, was modeled by assuming that the current activates with a single exponential relation and does not inactivate.(ABSTRACT TRUNCATED AT 400 WORDS)

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Neurons of the medial pontine reticular formation (mPRF) are involved in the execution of numerous behaviors including initiation of locomotion, eye movements, startle responses, and rapid eye movement sleep phenomena. Approximately half of the afferent projections to mPRF neurons come from within the reticular formation (Shammah-Lagnado et al., 1987). In spite of the importance of reticulo-reticular connections, virtually nothing is known about transmitters mediating these synapses. In order to identify a candidate excitatory neurotransmitter, the actions of excitatory amino acids (EAAs) on the membrane properties of mPRF neurons recorded in rat brainstem slices in vitro were studied. Standard intracellular recording methods, including single-electrode voltage clamp, were used to examine the postsynaptic actions of EAAs. We also tested whether EAA antagonists block EPSPs evoked by stimulation of the contralateral reticular formation in the slices. mPRF neurons responded to both non-NMDA and NMDA agonists. NMDA-induced conductances were voltage dependent and depressed by physiological concentrations of magnesium. Stimulation of the contralateral reticular formation elicited EPSPs that were depressed by the general EAA antagonist kynurenate. Evoked EPSPs were partially depressed by 6,7-dinitroquinoxaline-2,3-dione. The evoked EPSP was further reduced by the NMDA antagonist (+/-)-2-amino-5-phosphonopentanoic acid in some cases. These results suggest that excitatory reticulo-reticular neurotransmission is mediated by an EAA. Both non-NMDA and NMDA receptors contribute to EAA neurotransmission in the mPRF formation and play an integral role in reticular formation function.

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The degree of parallel processing in frontal cortex-basal ganglia circuits is a central and debated issue in research on the basal ganglia. To approach this issue directly, we analyzed and compared the corticostriatal projections of two principal oculomotor areas of the frontal lobes, the frontal eye field (FEF) and the supplementary eye field (SEF). We first identified cortical regions within or adjacent to each eye field by microstimulation in macaque monkeys and then injected each site with either 35S-methionine or WGA-HRP conjugate. We analyzed the corticostriatal projections and also the interconnections of the pairs of cortical areas. We observed major convergence of the projections of the FEF and the SEF within the striatum, principally in the caudate nucleus. In cross sections through the striatum, both projections were broken into a series of discontinuous input zones that seemed to be part of complex three-dimensional labyrinths. Where the FEF and SEF projection fields were both present, they overlapped patch for patch. Thus, both inputs were dispersed within the striatum but converged with one another. Striatal afferents from cortex adjacent to the FEF and the SEF did not show convergence with SEF and FEF inputs, but did, in part, converge with one another. For all pairs of cortical areas tested, the degree of overlap in the corticostriatal projections appeared to be directly correlated with the degree of cortical interconnectivity of the areas injected. All of the corticostriatal fiber projections observed primarily avoided immunohistochemically identified striosomes. We conclude that there is convergence of oculomotor information from two distinct regions of the frontal cortex to the striatal matrix, which is known to project into pallidonigral circuits including the striatonigrocollicular pathway of the saccadic eye movement system. Furthermore, functionally distinct premotor areas near the oculomotor fields often systematically projected to striatal zones adjacent to oculomotor field projections, suggesting an anatomical basis for potential interaction of these inputs within the striatum. We propose that parallel processing is not the exclusive principle of organization of forebrain circuits associated with the basal ganglia. Rather, patterns of both convergence and divergence are present and are likely to depend on multiple functional and developmental constraints.

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The effect of prenatal protein malnutrition on central serotonin metabolism was assessed in 220- to 240-d-old male rats. The malnourished rats (denoted 6,25 group) were males born to dams fed a 6% casein diet during pregnancy and fostered at birth to dams fed a control (25% casein) diet. They were compared with males born to dams fed 25% casein diet. Tissue concentrations of serotonin, 5-hydroxyindoleacetic acid, 5-hydroxytryptophan, L-tryptophan and catecholamines in the hippocampal formation in the 6,25 group were similar to those of well-fed controls (25,25 group). However, a twofold greater basal serotonin efflux from hippocampal slices of 6,25 rats compared with slices from 25,25 rats was observed during a 20-min incubation period. Hippocampal [3H]paroxetine binding indicated that there was no alteration of apparent maximal binding and affinity of the serotonin transporter in the 6,25 rats. In addition, there was no difference in serotonin receptor binding in hippocampal membranes from 6,25 and 25,25 rats. The results indicate that prenatal protein malnutrition causes selective changes in central serotonin metabolism.

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The effects of vitamin A nutritional status on the levels of expression of retinoic acid nuclear receptors (RAR), and the retinoic acid-responsive gene, tissue transglutaminase, were determined in rats. Weanling male Sprague-Dawley rats fed a vitamin A-deficient diet for approximately 7 wk developed vitamin A deficiency, as confirmed by the depletion of liver retinol and retinyl palmitate. Controls were fed the same diet supplemented with 24 mg/kg retinyl acetate. The levels of expression of RAR beta mRNA were approximately 80% lower in bladder, brain, liver, lung and trachea and those of RAR gamma mRNA were approximately 50% lower in bladder, lung and trachea of rats fed the vitamin A-deficient diet than in controls. The levels of expression of RAR alpha mRNA were approximately 90% lower in brain and approximately 30% greater in liver, kidney, intestine and lung of rats fed the vitamin A-deficient diet. Vitamin A deficiency also resulted in reduced expression of tissue transglutaminase in the bladder, lungs and trachea, which paralleled the effects observed for RAR beta and RAR gamma. When vitamin A-deficient rats were subsequently fed a retinol-deficient diet supplemented with retinoic acid for 4 wk, the expression of RAR (beta and gamma) and tissue transglutaminase returned to the control levels. These results indicate that vitamin A nutritional status in rats influences the expression of both RAR and tissue transglutaminase in certain tissues.

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The effects of gastric acid antisecretory agents prostaglandins E2, I2 (PGE2, PGI2) and somatostatin on pentagastrin-stimulated gastric histamine and N tau-methyl histamine secretory rates were examined in anesthetized mixed breed dogs. We infused two gastric acid antisecretory doses of PGE2 and PGI2 to test the effect of prostaglandins on pentagastrin-stimulated gastric histamine release. Neither dose of PGE2 and PGI2 had an effect on pentagastrin-stimulated histamine and N tau-methyl histamine release, even though the prostaglandins caused marked gastric vasodilation. In addition, the infusion of the higher dose of PGE2 and PGI2 alone had no effect on histamine secretory rates. In contrast, somatostatin inhibited both pentagastrin-stimulated gastric histamine release by approximately 95% as well as basal histamine release by approximately 60%. Somatostatin also inhibited the pentagastrin-stimulated N tau-methyl histamine secretory rates. The results indicate that neither PGE2 nor PGI2 at antisecretory doses affect pentagastrin-stimulated gastric histamine release, but somatostatin has a very potent inhibitory effect in that regard. Our data suggest that the mechanisms by which prostaglandins and somatostatin affect gastric acid secretion may be diverse.

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Thirty-five Helicobacter pylori isolates, 21 H. mustelae isolates and four strains of H. felis were compared for their ability to agglutinate red blood cells (RBCs). Isolates were examined in a slide haemagglutination assay with RBCs from 11 animal species, including rodents, carnivores and primates, as well as man. RBCs were agglutinated by 65-90% of H. mustelae isolates and 16-57% of H. pylori isolates. Treatment of H. mustelae with pronase and heat inhibited haemagglutination (HA) whereas heating only of H. pylori inhibited HA. Treatment of all strains of H. mustelae with trypsin inhibited agglutination of human RBCs; 75% of the treated strains did not agglutinate ferret RBCs. These results suggested that protein(s) may be important haemagglutinins for these bacteria. Variable HA profiles together with varying results after treatment of RBCs with fetuin, D-mannose, and neuraminidase suggested that multiple receptors may be involved in HA reactions with H. pylori and H. mustelae. The observation that H. mustelae and H. pylori agglutinated RBCs of several species and closely adhered to gastric epithelium supported the hypothesis that adherence plays a role in the colonisation and pathogenicity of H. mustelae and H. pylori. H. felis did not adhere to gastric epithelium and did not agglutinate RBCs of any species; nevertheless, H. felis can readily colonise and produce gastritis in several mammals.

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The effects of purified Pseudomonas cepacia lipase on rat pulmonary alveolar function and morphology were examined. Lipase (2.5-20 micrograms/ml) adversely effected the phagocytic function of rat pulmonary alveolar macrophages in a dose-dependent manner. The lipase itself was not directly cytotoxic to these cells. Alveolar macrophages, in the absence of lipase, phagocytosed c. 35% of a given population of opsonised P. cepacia in 30 min when the ratio of bacteria:phagocyte was 10:1. Phagocytosis of P. cepacia by rat pulmonary alveolar macrophages was significantly reduced when the cells were either pre-incubated with the lipase or when phagocytosis occurred in the presence of the lipase. This was confirmed by transmission electronmicroscopy. These functional changes were associated with marked alterations of the macrophage morphology. Scanning electronmicroscopy showed that macrophages exposed to the P. cepacia lipase had fewer specialised surface structures and did not spread on plastic surfaces as well as untreated macrophages. The effects of the lipase were lost after heat inactivation, which indicates that the effects of the P. cepacia lipase were due to its enzymic activity. These results suggest that, if sufficient quantities of the enzyme are produced in vivo, lipase may be an important virulence factor for P. cepacia, allowing the organism to evade phagocytic cells.

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In order to utilize 19F nuclear magnetic resonance (NMR) to probe the solution structure of Escherichia coli tRNAVal labeled by incorporation of 5-fluorouracil, we have assigned its 19F spectrum. We describe here assignments made by examining the spectra of a series of tRNAVal mutants with nucleotide substitutions for individual 5-fluorouracil residues. The result of base replacements on the structure and function of the tRNA are also characterized. Mutants were prepared by oligonucleotide-directed mutagenesis of a cloned tRNAVal gene, and the tRNAs transcribed in vitro by bacteriophage T7 RNA polymerase. By identifying the missing peak in the 19F NMR spectrum of each tRNA variant we were able to assign resonances from fluorouracil residues in loop and stem regions of the tRNA. As a result of the assignment of FU33, FU34 and FU29, temperature-dependent spectral shifts could be attributed to changes in anticodon loop and stem conformation. Observation of a magnesium ion-dependent splitting of the resonance assigned to FU64 suggested that the T-arm of tRNAVal can exist in two conformations in slow exchange on the NMR time scale. Replacement of most 5-fluorouracil residues in loops and stems had little effect on the structure of tRNAVal; few shifts in the 19F NMR spectrum of the mutant tRNAs were noted. However, replacing the FU29.A41 base-pair in the anticodon stem with C29.G41 induced conformational changes in the anticodon loop as well as in the P-10 loop. Effects of nucleotide substitution on aminoacylation were determined by comparing the Vmax and Km values of tRNAVal mutants with those of the wild-type tRNA. Nucleotide substitution at the 3' end of the anticodon (position 36) reduced the aminoacylation efficiency (Vmax/Km) of tRNAVal by three orders of magnitude. Base replacement at the 5' end of the anticodon (position 34) had only a small negative effect on the aminoacylation efficiency. Substitution of the FU29.A41 base-pair increased the Km value 20-fold, while Vmax remained almost unchanged. The FU4.A69 base-pair in the acceptor stem, could readily be replaced with little effect on the aminoacylation efficiency of E. coli tRNAVal, indicating that this base-pair is not an identity element of the tRNA, as suggested by others.

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To complete assignment of the 19F nuclear magnetic resonance (NMR) spectrum of 5-fluorouracil-substituted Escherichia coli tRNA(Val), resonances from 5-fluorouracil residues involved in tertiary interactions have been identified. Because these assignments could not be made directly by the base-replacement method used to assign 5-fluorouracil residues in loop and stem regions of the tRNA, alternative assignment strategies were employed. FU54 and FU55 were identified by 19F homonuclear Overhauser experiments and were then assigned by comparison of their 19F NMR spectra with those of 5-fluorouracil-labeled yeast tRNA(Phe) mutants having FU54 replaced by adenine and FU55 replaced by cytosine. FU8 and FU12, were assigned from the 19F NMR spectrum of the tRNA(Val) mutant in which the base triple G9-C23-G12 substituted for the wild-type A9-A23-FU12. Although replacement of the conserved U8 (FU8) with A or C disrupts the tertiary structure of tRNA(Val), it has only a small effect on the catalytic turnover number of valyl-tRNA synthetase, while reducing the affinity of the tRNA for enzyme. Analysis of the 19F chemical shift assignments of all 14 resonances in the spectrum of 5-fluorouracil-substituted tRNAVal indicated a strong correlation to tRNA secondary and tertiary structure. 5-Fluorouracil residues in loop regions gave rise to peaks in the central region of the spectrum, 4.4 to 4.9 parts per million (p.p.m.) downfield from free 5-fluorouracil. However, the signal from FU59, in the T-loop of tRNA(Val), was shifted more than 1 p.p.m. downfield, to 5.9 p.p.m., presumably because of the involvement of this fluorouracil in the tertiary interactions between the T and D-loops. The 19F chemical shift moved upfield, to the 2.0 to 2.8 p.p.m. range, when fluorouracil was base-paired with adenine in helical stems. This upfield shift was less pronounced for the fluorine of the FU7.A66 base-pair, located at the base of the acceptor stem, an indication that FU7 is only partially stacked on the adjacent G49 in the continuous acceptor stem/T-stem helix. An unanticipated finding was that the 19F resonances of 5-fluorouracil residues wobble base-paired with guanine were shifted 4 to 5 p.p.m. downfield of those from fluorouracil residues paired with A. In the 19F NMR spectra of all fluorinated tRNAs studied, the farthest downfield peak corresponded to FU55, which replaced the conserved pseudouridine normally found at this position.

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In a proliferating tumor, locally secreted polypeptide growth factors, which have autocrine and paracrine functions, induce vascularization essential for tumor growth and metastasis. These growth factors may serve as targets for tumor therapy. We have shown that the heparinoid pentosan polysulfate (PPS) can block growth of subcutaneous human tumor xenografts in nude mice and angiogenesis induced by the heparin-binding, Kaposi's sarcoma-derived fibroblast growth factor (K-FGF).

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Using a quantitative reverse transcription-polymerase chain reaction (RT-PCR) we have investigated the expression of the neurotrophin receptors p75NGFR, trkA, and trkB mRNAs in cultures of rat pup type I astrocytes and in the C6 rat glioma cell line. All three neurotrophin receptor mRNAs are expressed in both C6 cells and in type I astrocytic cultures. p75NGFR mRNA levels are increased by either cycloheximide or nerve growth factor (NGF) treatment of C6 cells as measured using RT-PCR. Type I astrocyte cultures also expressed p75NGFR mRNA and NGF treatment increased p75NGFR mRNA levels in these cultures. TrkB mRNA levels were increased by cycloheximide treatment of type I astrocyte cultures but not by NGF treatment. Using RT-PCR, trkA mRNA was detected in astrocytic cultures as well as in the rat C6 and PC-12 cell lines. We conclude that cultures of type I astrocytes express active NGF receptors and that glia can elicit a response to NGF as seen by an increase in p75NGFR mRNA levels following exposure to NGF.

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The rat substance P (SP) receptor cDNA has been transfected into cultured rat KNRK cells, and a stable cell line expressing functional SP receptors established. Upon stimulation with SP, these cells responded by simultaneously activating two signaling pathways: the mobilization of intracellular Ca2+ and the raising of cyclic adenosine triphosphate (cAMP) levels. Both Ca2+ and cAMP responses were elicited in a similar dose-dependent manner with half maximal concentrations of approximately 5 x 10(-10) M. Following ionomycin treatment SP-dependent Ca2+ responses were abolished, whereas cAMP responses were preserved. Forskolin eliminated the SP-dependent cAMP elevation, however, the SP-induced Ca2+ mobilization remained unchanged. Furthermore, treatment with phorbol esters had no significant effect on either of the two SP-induced responses. Thus it appears that the SP receptor is capable of independently activating Ca2+ mobilization and cAMP pathways. These results may provide new insights for further understanding the diverse activities of SP in various systems in vitro and in vivo.

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The SJL mouse strain is resistant to infection by some strains of the murine coronavirus mouse hepatitis virus (MHV), such as JHM and A59. The block to virus infection has been variously attributed to defects in virus receptors or virus spread. Since the cellular receptors for MHV, mmCGM1 and mmCGM2, have recently been identified as members of the carcinoembryonic antigen family, we reexamined the possible defectiveness of the MHV receptors in SJL mouse strain. Cloning and sequencing of the cDNAs of both mmCGMs RNAs from SJL mice revealed that they were identical in size to those of the susceptible C57BL/6 (B6) mouse. There was some sequence divergence in the N terminus of the mmCGM molecules between the two mouse strains, resulting in a different number of potential glycosylation sites. This was confirmed by in vitro translation of the mmCGM RNAs, which showed that the glycosylated mmCGM2 of SJL was smaller than that of B6 mice. However, transfection of either mmCGM1 or mmCGM2 from SJL mice into MHV-resistant Cos 7 cells rendered the cells susceptible to MHV infection. The ability of the SJL mmCGM molecules to serve as MHV receptors was comparable to that of those from B6. These molecules are expressed in SJL mouse brain and liver in a similar ratio and in amounts equivalent to those in the B6 mouse. Furthermore, we demonstrated that an SJL-derived cell line was susceptible to A59 but resistant to JHM infection. We concluded that the MHV receptor molecules in the SJL mouse are functional and that the resistance of SJL mice to infection by some MHV strains most likely results from some other factor(s) required for virus entry or some other step(s) in virus replication.

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The major capsid (CA) protein of retroviruses possesses a stretch of 20 amino acids, called the major homology region (MHR), which is evolutionarily conserved and invariant in location within the primary sequence of the protein. The function of this region was investigated by examining the effect of random single-amino-acid substitutions within the central 13 positions of the MHR on the life cycle of Mason-Pfizer monkey virus (M-PMV), an immunosuppressive D-type retrovirus. When these mutants were subcloned into an M-PMV proviral vector and expressed in COS cells, one of two major phenotypes was observed. The first group, containing three mutants bearing drastic amino acid substitutions, was unable to assemble capsids in the cytoplasm of the host cell. The second and more common group of mutants was able to assemble and release virions, but these either displayed greatly reduced levels of infectivity or were completely noninfectious. Included within this second group were two mutants with unusual phenotypes; mutant D158Y exhibited a novel cleavage site for the viral protease that resulted in cleavage of the major capsid protein, p27 (CA), within the MHR, whereas mutant F156L appeared to have lost a major site for antibody recognition within the mature CA protein. The results of this mutagenic analysis suggest that changes in the MHR sequence can interfere with the assembly of viral capsids and block an early stage of the infection cycle of M-PMV.

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The expression of Marek's disease virus (MDV) transcripts and protein products was investigated in reticuloendotheliosis virus-transformed avian T-lymphoblastoid cell line RECC-CU91, which was superinfected with MDV. The presence of MDV in the superinfected cell line, renamed RECC-CU210, was demonstrated by Southern hybridization with 32P-labeled BamHI-H and -B fragments of the BamHI MDV DNA library. Examination of RECC-CU210 for the expression of MDV-specific RNA transcripts encoded by the internal repeat long (IRL), internal repeat short (IRS), and unique short (US) regions of the MDV genome revealed two small transcripts of 0.6 and 0.7 kb. These transcripts were mapped to the IRL and IRS regions, respectively. In contrast, RECC-CU211, which was developed through transfection of CU210 with the BamHI-A fragment of MDV, expressed an additional nine transcripts from the IRL, IRS, and US regions. CU211 but not CU210 also expressed a complex of polypeptides of 40, 38, and 24 kDa, identified by monoclonal antibodies as MDV-specific phosphoproteins. The 38-kDa phosphoprotein is likely to be pp38, an early viral protein that maps within the IRL region of the MDV genome. These findings suggest that genes located within the transfected BamHI-A fragment transactivated a number of genes located in the IRL region of the MDV genome.

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It has been reported that loss of the tumorigenic potential of attenuated Marek's disease virus (MDV) is strongly associated with amplification of the 132-bp repeat sequences found within the BamHI-D and BamHI-H fragments contained within the long terminal repeat and the long internal repeat, respectively. The expansion of this region results in loss of transcripts that are 3.8, 3.0, and 1.8 kbp long that are produced by tumorigenic strains of MDV. This evidence suggests that production of one or more of these three RNAs is strongly associated with the tumorigenic potential of the virus. In this study, we have cloned and sequenced 1.69-, 1.5-, 1.9-, and 2.2-kbp cDNAs from the BamHI-H gene family RNAs associated with tumorigenicity. The 1.69- and 2.2-kbp cDNAs are derived from nonspliced transcripts, whereas the 1.5- and 1.9-kbp cDNAs are from single spliced mRNAs spanning the BamHI-H and BamHI-I2 fragments of MDV DNA. Sequence analysis has shown two potential open reading frames in each of the cDNAs. The putative 63-amino-acid protein encoded by the first open reading frame in the 1.69-kbp cDNA and a putative 75-amino-acid protein encoded by the first open reading frame in the 1.5-kbp cDNA showed limited homology with the mouse T-cell lymphoma oncogene and the fes/fps family of kinase-related transforming proteins.

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Temperature-sensitive mutants of the lck tyrosine protein kinase were created by the introduction of mutations known to cause temperature sensitivity of the v-src tyrosine protein kinase of Rous sarcoma virus. p56lck activated by mutation of the regulatory site of tyrosine phosphorylation, Tyr-505, to Phe transforms fibroblasts in culture. Mutations identical to those responsible for the temperature-sensitive phenotypes of the tsNY68 and tsNY72-4 v-src mutants rendered this activated lck gene temperature sensitive for both morphological transformation and induction of growth in soft agar. The mutant proteins were incapable of cellular transformation at the nonpermissive temperature in part because of failure of the lck protein to accumulate to normal levels. Morphological transformation of fibroblasts was detectable within 24 h of a shift of cells to the permissive temperature and was essentially complete in 48 to 72 h. These mutants should prove useful for the study of the function of the lck kinase in hematopoietic cells.

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Like most coronaviruses, the coronavirus mouse hepatitis virus (MHV) exhibits strong species specificity, causing natural infection only in mice. MHV-A59 virions use as a receptor a 110- to 120-kDa glycoprotein (MHVR) in the carcinoembryonic antigen (CEA) family of glycoproteins (G. S. Dveksler, M. N. Pensiero, C. B. Cardellichio, R. K. Williams, G. S. Jiang, K. V. Holmes, and C. W. Dieffenbach, J. Virol. 65:6881-6891, 1991; and R. K. Williams, G. S. Jiang, and K. V. Holmes, Proc. Natl. Acad. Sci. USA 88:5533-5536, 1991). The role of virus-receptor interactions in determining the species specificity of MHV-A59 was examined by comparing the binding of virus and antireceptor antibodies to cell lines and intestinal brush border membranes (BBM) from many species. Polyclonal antireceptor antiserum (anti-MHVR) raised by immunization of SJL/J mice with BALB/c BBM recognized MHVR specifically in immunoblots of BALB/c BBM but not in BBM from adult SJL/J mice that are resistant to infection with MHV-A59, indicating a major difference in epitopes between MHVR and its SJL/J homolog which does not bind MHV (7). Anti-MHVR bound to plasma membranes of MHV-susceptible murine cell lines but not to membranes of human, cat, dog, monkey, or hamster cell lines. Cell lines from these species were resistant to MHV-A59 infection, and only the murine cell lines tested were susceptible. Pretreatment of murine fibroblasts with anti-MHVR prevented binding of radiolabeled virions to murine cells and prevented virus infection. Solid-phase virus-binding assays and virus overlay protein blot assays showed that MHV-A59 virions bound to MHVR on intestinal BBM from MHV-susceptible mouse strains but not to proteins on intestinal BBM from humans, cats, dogs, pigs, cows, rabbits, rats, cotton rats, or chickens. In immunoblots of BBM from these species, both polyclonal and monoclonal antireceptor antibodies that block MHV-A59 infection of murine cells recognized only the murine CEA-related glycoprotein and not homologous CEA-related glycoproteins of other species. These results suggest that MHV-A59 binds to a mouse-specific epitope of MHVR, and they support the hypothesis that the species specificity of MHV-A59 infection may be due to the specificity of the virus-receptor interaction.

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Using BspMI cassette vectors, we have constructed a series of mutations in human immunodeficiency virus type 1 (HIV-1) reverse transcriptase (RT) that cause specific amino acid substitutions within the polymerase domain. The RNA-dependent DNA polymerase, DNA-dependent DNA polymerase, and RNase H activities of the mutant RTs were assayed. The elucidation of the structure of HIV-1 RT makes it possible to determine the locations of specific mutations in the three-dimensional structure of HIV-1 RT [E. Arnold, A. Jacobo-Molina, R. G. Nanni, R. L. Williams, X. Lu, J. Ding, A. D. Clark, Jr., A. Zhang, A. L. Ferris, P. Clark, A. Hizi, and S. H. Hughes, Nature (London) 357:85-89, 1992; L. A. Kohlstaedt, J. Wang, J. M. Friedman, P. A. Rice, and T. A. Steitz, Science 256:1783-1790, 1992]. The mutations described in this report are between amino acids 25 and 81, within the "fingers" domain of RT (Kohlstaedt et al., Science 256:1783-1790, 1992). It has been suggested that this domain may play a role in positioning the template. Although the fingers domain does not contain the active site for polymerization, several of the mutations within this domain disrupt polymerase activity without significantly affecting RNase H activity.

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A Glu-89-->Gly alteration in the human immunodeficiency virus type 1 reverse transcriptase (RT) was previously shown to result in resistance to several dideoxynucleoside analogs and to phosphonoformic acid (PFA; foscarnet). This residue was altered to Ala, Val, Ser, Thr, Gln, Asp, Asn, or Lys, and the ddGTP and PFA sensitivities of the mutant RTs were measured. Replacements with Ala, Gly, Val, and Thr led to resistance to inhibition by ddGTP, while mutants with amino acid Ser, Gln, Asn, Asp, or Lys displayed only moderate or no resistance. A similar result was obtained with inhibition by PFA, except that the Asp-89 mutant also displayed resistance. Furthermore, the introduction of Glu-89-->Gly alteration into the RT of human immunodeficiency virus type 2 likewise rendered it resistant to both ddGTP and PFA.

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Several mechanisms, including a high mutation rate and reassortment of genes, have been found to be responsible for the variability of influenza A viruses. RNA recombination would be another mechanism leading to genetic variation; however, recombination has only rarely been reported to occur in influenza viruses. During ribonucleoprotein transfection experiments designed to generate viable influenza viruses from in vitro-synthesized RNA, we discovered several viruses which must have originated from recombination events. The ribonucleoprotein transfection system may enhance the formation of viruses which result from jumping of the viral polymerase between RNAs or from ligation of different viral RNAs. Five different recombinant viruses are described. Two of these, REC1 and REC2, contain a neuraminidase (NA) gene whose defective polyadenylation signal has been repaired via intergenic recombination; 124 and 95 nucleotides have been added, respectively. Another virus, REC5, must have originated by multiple recombination events since it contains a mosaic gene with sequences derived from the NA gene of influenza A/WSN/33 virus and the matrix, polymerase protein PB1, and NA genes of influenza A/PR/8/34 virus.

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We isolated, purified, and characterized the hemagglutinin-neuraminidase (HN) of human parainfluenza virus type 1, with the ultimate goal of producing crystals suitable for three-dimensional X-ray structure analysis. Pronase was used to cleave the globular head of the HN molecule directly from virus particles, forming HN monomers and dimers. The purified dimers retained neuraminidase and hemadsorption activity and were recognized by 14 anti-HN monoclonal antibodies, demonstrating intact HN antigenic structure and function. N-terminal sequence analysis of the dimers showed that cleavage had occurred at amino acid 136 or 137, freeing the C-terminal 438 or 439 amino acids. On electron micrography, the dimer appeared as two box-shaped structures, each approximately 5 by 5 nm. When the purified HN dimers were crystallized in hanging drops by vapor diffusion against 20% polyethylene glycol 3350, they formed both rectangular plates and needlelike crystals. The rectangular crystals diffracted X-rays, indicating an ordered atomic structure. However, the resolution was approximately 10 A (1 nm), insufficient for three-dimensional structural analysis. Experiments to improve the resolution by increasing the size and quality of the crystals are in progress.

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Nonbacterial prostatitis is often difficult to differentiate from other prostatic complaints and remains a vaguely characterized syndrome. Prostatic fluid inflammatory cells and elevated immunoglobulins raise the suspicion that this syndrome is caused by some undetected infection. Prostatic fluid antibodies against Chlamydia trachomatis, Ureaplasma urealyticum, staphylococcus, Staphylococcus faecalis, Bacteroides fragilis and Clostridium perfringens were measured in men with nonbacterial and bacterial prostatitis, and men without urinary symptoms by an enzyme-linked immunosorbent assay. Prostate specific antigen and prostatic acid phosphatase were measured in the prostatic fluid as indirect measures of secretory activity. Of 44 men with nonbacterial prostatitis 9 (20%) had detectable prostatic fluid antichlamydial antibody titers, compared with 3 of 25 control men (12%) and 2 of 13 (15%) with bacterial prostatitis--no evidence for a higher prevalence of prostatic fluid antichlamydial antibody in men with nonbacterial prostatitis. Prostatic antibodies to the other organisms were rarely detected. When compared with unaffected men the low levels of prostate specific antigen and prostatic acid phosphatase, and more alkaline prostatic fluid in men with bacterial and nonbacterial prostatitis suggest that secretory dysfunction accompanies the inflammation. These data show that none of the organisms studied caused the majority of the cases of nonbacterial prostatitis and that either an agent as yet unidentified or multiple agents may be involved in the etiology of nonbacterial prostatitis.

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Visceral glomerular epithelial cells (GEC) are an important component of the glomerular filtration barrier to proteins. While ultrastructural GEC changes have frequently been observed in proteinuric states, no suitable light microscopic markers of GEC injury have yet been identified.

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Blood vessels supplying tumors are hyperpermeable to macromolecules, but the mechanisms responsible are poorly understood.

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In conscious rats, intrathecal (i.t.) administration of norepinephrine (NE) produced pressor responses, whereas i.t. epinephrine (Epi) caused depressor responses at low doses (0.1-1 microgram) and pressor responses at a higher dose (10 micrograms). Epi administered i.t. produced bradycardia; however, NE caused tachycardia at low doses and bradycardia at high doses. The cardiovascular responses were dissimilar to those observed after intravenous (i.v.) administration of these doses of NE and Epi. When [3H]NE or [3H]Epi (1.0 microgram, 10 mCi) was injected i.t., minimal radioactivity was detected in peripheral blood (PB) samples, indicating that the effects of i.t.-injected catecholamines on blood pressure (BP) and heart rate (HR) are due to stimulation of central spinal adrenoceptors and not to peripheral effects after leakage. Pretreatment with i.t. administration of the alpha 1-antagonist prazosin (1.0 microgram) attenuated pressor responses and tachycardia produced by i.t. NE (1.0 microgram), whereas i.t. pretreatment with the alpha 2-antagonist yohimbine (10 micrograms) counteracted depressor responses and bradycardia produced by i.t. Epi. Therefore, these spinally released catecholamines appear to produce opposite cardiovascular effects whereby sympathetic preganglionic neurons are excited by NE through spinal alpha 1-adrenoceptors and are inhibited by Epi through spinal alpha 2-adrenoceptors.

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Using a chemiluminescence method in the present study, we measured nitric oxide and one-electron oxidation products of nitric oxide (NOX) released from porcine coronary artery segments in response to bradykinin, ADP, and the calcium ionophore A23187. Total NOX was compared with the bioactivity of endothelium-derived relaxing factors (EDRF) by a biodetector ring preparation before and after inhibition of L-arginine-dependent nitric oxide synthesis and in the presence of indomethacin. Under basal conditions, arterial segments released NOX and relaxed biodetector rings. Bradykinin, ADP, and A23187 elicited vasorelaxation greater than that observed basally; A23187, but not bradykinin or ADP, caused additional release of NOX greater than that measured basally. Hemoglobin completely reversed vasorelaxation elicited by all three agonists. We compared the amount of nitric oxide released under basal conditions and after stimulation with bradykinin, ADP, and A23187 with the amount of authentic nitric oxide necessary to elicit a bioequivalent response. Authentic nitric oxide did not account for the observed bioactivity as compared with the amount of nitric oxide actually measured in arterial segment effluent. To investigate whether a second non-nitric oxide-containing compound was responsible for the increased bioactivity and the discrepancy between the bioactivity and quantity of nitric oxide measured, we exposed arterial segments to omega-nitro-L-arginine methyl ester to inhibit L-arginine-dependent synthesis of nitroso compounds. The drug completely abolished the nitric oxide signal derived from both basally released and A23187-stimulated relaxing factor and completely reversed vasorelaxation. In contrast, omega-nitro-L-arginine methyl ester only partially reversed bradykinin-stimulated vasorelaxation.(ABSTRACT TRUNCATED AT 250 WORDS)

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We wished to determine whether the metabolism of arachidonic acid, through lipoxygenase and cytochrome P-450 pathways, is involved in production of endothelium-derived relaxing factor(s) (EDRFs) in canine femoral veins. Veins were removed from anesthetized dogs and cut into rings. Endothelium was deliberately removed from some rings. In separate sets of experiments, rings were incubated with either AA861 (10(-5) M) or TMK777 (10(-6) M), inhibitors of 5-lipoxygenase, nordihydroguaiaretic acid (NDGA 3 x 10(-6) M), an inhibitor of lipoxygenase or proadifen (SKF 525A, 10(-6) M), an inhibitor of cytochrome P-450. In addition, some rings were incubated with a combination of indomethacin (10(-5) M) and NG-monomethyl-L-arginine (L-NMMA 10(-4) M) or, where appropriate, a solvent control. Concentration-response curves were obtained for acetylcholine, adenosine diphosphate, thrombin, A23187, and nitric oxide in rings contracted with a submaximal concentration of prostaglandin F2 alpha. AA861 and TMK777 did not alter endothelium-dependent relaxations to the agonists, whether with or without indomethacin and L-NMMA. However, indomethacin plus L-NMMA reduced endothelium-dependent relaxations to thrombin. These results suggest that metabolism of arachidonic acid, through lipoxygenase and cytochrome P-450 pathways, does not produce an EDRF in veins. However, thrombin receptor-activated relaxations are mediated in part by products of the cyclooxygenase pathway and nitric oxide.

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A new 111Indium labeled bleomycin complex (111In-BLMC) was prepared and found to be effective for tumor imaging and therapy both in mouse glioma and human small cell lung cancer (SCLC) cells. Chromosome aberrations were studied in human SCLC cells to explore its mechanisms of killing cancer cells. SCLC cells (N417) were exposed to 111In-BLMC, BLM, or 111InCl3 (for control) for 1 hour, treated with colcemid, and chromosomal changes were analyzed. A dramatic increase in chromatic gaps, breaks, chromosome breaks, double minutes, rings, triradii, quadriradii, and chromosome stickiness were observed in the cells treated by 111In-BLMC compared to BLM or 111InCl3. These results indicated that 111In-BLMC has therapeutic potential for combination chemo-radiotherapy of cancer (e.g., by Auger electrons and local energy deposition).

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Exposure of human promyelocytic leukemic HL-60 cells to the topoisomerase I inhibitor camptothecin (CAM) triggers endonucleolytic activity and apoptotic death of these cells. The nucleolytic effect is seen 2-4 h after drug addition and is highly selective to cells progressing through S phase. Concomitant with degradation of DNA, which is preferential to the nucleosomal DNA linker sections, extensive proteolysis takes place in these cells. Cellular RNA, however, is initially degraded to a much lesser degree than DNA or protein. Both endonucleolysis and proteolysis triggered by CAM in S-phase HL-60 cells can be prevented by the protease inhibitors N-tosyl-L-phenylalanylchloromethyl ketone (TPCK), N-tosyl-L-lysylchloromethyl ketone (TLCK) or partly by N-tosyl-L-arginine methyl ester (TAME), added simultaneously with CAM, or up to 30 min after exposure to CAM, at their respective concentrations known to inhibit proteases. The protective effect of these protease inhibitors on DNA degradation cannot be due to the suppression of cell progression through S phase because cells still replicate DNA in their presence, albeit at a reduced rate. Furthermore, TPCK and TLCK protect rat thymocytes against endonucleolysis induced by prednisolone. In the latter cell system, (considered a classic model of apoptosis), endonucleolysis, which primarily affects G0/G1 cells, is unrelated to cell progression through S phase. The present data suggest that the endonucleolysis and proteolysis which accompany apoptotic cell death are coupled, and the proteolytic step is needed for DNA degradation to occur.

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Colony stimulating factors (CSFs) are glycoprotein hormones that regulate growth and differentiation of hematopoietic progenitor cells. Their use to stimulate granulocyte precursors during periods of neutropenia in patients with acute myeloid leukemia (AML) is limited by their concomitant stimulation of the proliferation of myeloblasts. The effects of these agents on leukemic lymphoblasts is not entirely known. We have investigated the in vitro effects of granulocyte-CSF (G-CSF) and granulocyte/macrophage-CSF (GM-CSF) on leukemic cells from children with acute lymphoblastic leukemia (ALL). DNA synthesis of bone marrow cells from 22 children with ALL, either at diagnosis or in relapse, was examined with and without CSFs. Proliferative potential was also tested in a clonogenic assay with 13 bone marrow specimens. These factors did not stimulate the growth of ALL cells in either assay. Our results indicate that G-CSF and GM-CSF should be able to stimulate granulocyte proliferation without enhancing leukemic proliferation during periods of neutropenia in children with ALL.

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Blood cell production is regulated by a complex interacting network of stem and progenitor cells, from which all the blood forming elements are derived, and the effects of cytokines which can up- or down-modulate proliferation or self-renewal of stem and progenitor cells (1,2). This report reviews in brief recent information on the characteristics of human umbilical cord blood progenitor cells, the effects of the potent co-stimulating molecule, steel factor, and the myelosuppressive effects of macrophage inflammatory protein 1 alpha and other members of this latter group of molecules termed cytokines. In vitro as well as preclinical and clinical in vivo effects are covered.

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To investigate age-related changes in gene expression in WI-38 cells, we isolated RNA from young and senescent, quiescent cultures and made subtracted cDNA libraries. Density-arrested cells were incubated in serum-free MCDB-104 for 3 days. RNA was then isolated and subtracted cDNA libraries were made in the phagemid vector pCDM8. Both by picking clones at random from these subtracted libraries and by differential hybridization screening with subtracted cDNA probes from young and senescent cells, we have identified a total of 11 genes for which RNA is expressed differentially in these quiescent young and senescent WI-38 cultures. Two genes, EPC-1 and EPC-A2, with elevated RNA levels in young cells, have sequences which have not previously been identified. Two of the genes with elevated RNA expression in the senescent cells are the mitochondria-coded genes for NADH dehydrogenase subunit 4 and for cytochrome b. We also identified seven other genes with elevated RNA levels in senescent cells. Three of these, LPC-1, LPC-14 and LPC-24, have been partially sequenced and have not previously been identified. These studies show that density-arrested, serum-deprived, quiescent young and senescent cells express a number of genes differentially. These differences are not growth-dependent, but are age-dependent. Our studies also show that the methods employed here, which include careful regulation of the cell cultures and subtraction of the libraries, result in libraries from which differentially expressed genes can be identified, either by random selection or by differential hybridization screening with subtracted probes.

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Effects of chronic administration of clonidine on parasympathetic-evoked saliva from both parotid and submandibular glands were investigated. Clonidine at 1 mg/kg/day for 5 or 7 days caused a significant reduction in the salivary secretion (flow rate and total volume) evoked by parasympathetic nerve stimulation of parotid but not submandibular glands. Ion concentrations (Na, K and Ca) of parasympathetically nerve-evoked parotid saliva were not altered. However, the total protein concentration as well as output, amylase activity, and output of such saliva were markedly increased. Possible mechanisms for clonidine-induced increase in nerve-elicited salivary protein concentration include release of neuropeptides, and changes in adrenergic receptor binding which need further study.

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The ratio of mRNA not selected for polyadenylation (non-poly(A)+ selected) to mRNA selected for polyadenylation (poly(A)+) for the beta 1, alpha 1 and gamma 2 subunits of the GABAA receptor complex was examined in rats as a function of age. RNA was extracted from whole brain of rats that were either 0, 1, 3, 5 or over 60 days of postnatal age. Poly(A)+ mRNA was purified by oligo(dT)-cellulose chromatography. Non-poly(A)+ selected mRNA and poly(A)+ mRNA for the GABAA receptor beta 1, alpha 1 and gamma 2 subunits were examined by Northern blot analysis using cDNA probes specific for these subunits. Levels of GABAA receptor beta 1 subunit mRNA were also examined by solution hybridization analysis with a beta 1 riboprobe. Analysis of Northern blots revealed that levels of poly(A)+ beta 1 subunit mRNA were highest at 0 days of age, but decreased and reached adult levels by 5 days of postnatal age. However, levels of the beta 1 subunit message extracted from non-poly(A)+ selected mRNA were not significantly different at any of the ages examined, suggesting the existence of a population of beta 1 subunit mRNA that is not polyadenylated. The age-related discrepancy between beta 1 subunit levels measured in non-poly(A)+ selected mRNA and poly(A)+ mRNA was also observed using solution hybridization analysis. In contrast, levels of both non-poly(A)+ selected mRNA and poly(A)+ mRNA for the alpha 1 subunit of the GABAA complex increased from 0 days of age to adulthood. Similarly, levels of both non-poly(A)+ selected mRNA and poly(A)+ mRNA for the GABAA receptor gamma 2 subunit increased with age.(ABSTRACT TRUNCATED AT 250 WORDS)

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A cDNA fragment homologous to other G protein-coupled receptors was isolated from rat brain using the PCR method and demonstrated to be abundantly expressed in striatum. Using this fragment as a probe, a 2.1 kb full-length cDNA was isolated from a rat striatal cDNA library. This cDNA encodes a protein of 410 amino acids and is highly homologous to previously isolated adenosine receptor cDNAs. Expression of this cDNA in COS cells revealed high affinity (Kd = 38.6 nM) and saturable binding of the A2 adenosine receptor-selective ligand [3H]CGS 21680. Agonist displacement profile of [3H]CGS 21680 binding was consistent with an adenosine receptor of the A2 subtype (NECA greater than (R)-PIA greater than CPA greater than (S)-PIA). In situ hybridization demonstrated that rat A2 adenosine receptor mRNA was co-expressed in the same striatal neurons as D2 dopamine receptor mRNA, and never co-expressed with striatal D1 dopamine receptor mRNA. Several lines of evidence have previously suggested that dopamine-induced changes in motor behavior can be modulated by adenosine analogs acting at the A2 subtype of adenosine receptor in the forebrain. The co-expression of D2 dopamine and A2 adenosine receptors in a subset of striatal cells provides an anatomical basis for dopaminergic-adenosinergic interactions on motor behavior.

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Quantitative solution hybridization assays were used to determine the picogram amounts of preproenkephalin mRNA (PPenk mRNA) and the microgram quanities of total rat RNA in extracts of eight brain regions from rats which had received three daily intraperitoneal injections of cocaine (10 or 30 mg/kg/day) or saline for 14 days. The young adult male Fischer rats were sacrificed 30 min after the final injection. The highest density of PPenk mRNA (pg PPenk mRNA/micrograms total cellular RNA) was found in extracts of striatum (34.08 +/- 1.79 pg/micrograms for 11 saline-treated rats), followed by extracts of nucleus accumbens (10.08 +/- 0.81 pg/micrograms), and extracts of hypothalamus (2.99 +/- 0.31 pg/micrograms). Extracts of frontal cortex (1.78 +/- 0.24 pg/micrograms), pituitary (1.39 +/- 0.08 pg/micrograms), central grey (1.31 +/- 0.16 pg/micrograms), and cerebellum (1.24 +/- 0.09 pg/micrograms) had intermediate values. Extracts of hippocampus (0.53 +/- 0.03 pg/micrograms) had the lowest density. No significant differences were found among the treatment groups in any brain area investigated. Therefore, chronic cocaine treatment as administered in this protocol did not alter expression of the gene encoding proenkephalin.

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A G-protein alpha subunit was cloned from a lobster olfactory organ cDNA library and sequenced. The clone encodes an alpha i subunit based on the 80% identity its predicted amino acid sequence shares with mammalian alpha i subunits. On Northern blots of polyadenylated RNA, the clone hybridized to a 5 kb species from several tissues.

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2',3'-Cyclic nucleotide 3'-phosphodiesterase (CNPase) is an enzyme associated with central nervous system myelination. Although present in the mammalian peripheral nerve, it is not clear what its role is during myelination nor how the expression of this gene is regulated in the PNS. In this study, CNPase gene expression was studied in the crushed and permanently transected rat sciatic nerve, two models of peripheral nerve neuropathy. The Schwann cells of the crushed nerve initially demyelinate, remain in a non-myelinating condition until active regeneration induces remyelination (10-21 days after injury), whereas those of the permanently transected nerve remain in a quiescent, non-myelinating state after the initial demyelination. An increase of CNPase mRNA levels is observed during degeneration and remains high whether the peripheral nerve is regenerating or not, suggesting transcriptional activation of CNPase mRNA and/or increased CNPase mRNA stability as a response to nerve injury. In contrast, the steady state level of CNPase protein did not increase during degeneration or regeneration suggesting either negative translational regulation of CNPase gene expression or a higher turnover of this protein in the injured peripheral nerve. Furthermore, CNPase activity dropped sharply during early degeneration and remained low in the quiescent cells of the permanently transected nerve while it increased in the regenerating nerve. The results suggest that although transcriptional or post-transcriptional regulation of CNPase gene expression is not dependent on Schwann cell-axonal contact, the activity of CNPase appears to be dependent on myelination and indirectly dependent on the presence of axons in the peripheral nerve.

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By a combination of DNase I footprinting, methylation interference, and gel shift analyses we have identified multiple binding sites for nuclear proteins within the promoter region of the human neurofilament H gene. Two sites likely bind the transcription factor Sp1 while two others may be targets for previously unrecognized DNA binding proteins. One site, PAL, occurs within the 10 bp sequence GGGGAGGAGG. Two copies of the PAL sequence form an interrupted palindrome around one of the Sp1 sites. A second site, PROX, is found within the sequence GGTTGGACC. Nuclear extracts prepared from both neural and non-neural cell lines, mouse brain, and mouse liver contain proteins that recognize and bind to the PROX and PAL sequences indicating that proteins which bind to these target sequences are widespread. The appearance of these target sequences in the 5' upstream region of several neuron specific genes suggests that they play key roles in the transcription of neuron specific genes. The functional activity of these target DNA sequences was demonstrated by transfection assays using a reporter gene fused to nested deletions of the NF(H) promoter region. Interestingly, these assays revealed that maximal transient expression was obtained with DNA fusion genes containing the PAL, PROX and TATA sequences. Inclusion of the Sp1 sites into the fusion genes failed to enhance the expression of the reporter gene. To determine if the NF(H) promoter can be activated in a tissue specific manner during development transgenic mice containing the promoter region linked to a beta-galactosidase reporter gene were generated. In one line sporadic expression of the transgene occurred in the CNS and testis while in four other lines no expression occurred. Collectively these results suggest that the NF(H) gene promoter is active in a tissue specific manner only by interactions with regulatory elements that lie further upstream or downstream of the start site of initiation.

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The gap junction channel mediates an important form of intercellular communication, but its detailed study is hindered by inaccessibility in situ. We show here that connexin32, the major protein composing junctional channels in rat liver, forms ion channels in single bilayer membranes. The properties of these reconstituted connexin32 channels are characterized and compared with those of gap junction channels. The demonstration that connexin32 forms channels in single membranes has implications for assembly and regulation of junctional channels, and permits detailed study of the gating, permeability and modulation of this channel-forming protein.

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Hydrazine sulfate (HS) pretreatment protects mice against the lethal effects of bacterial endotoxin lipopolysaccharide (LPS) through mechanisms yet to be established. The liver was examined as a model organ to determine HS effects on (a) LPS activation of leukocyte (Kupffer cell) interleukin-1 beta (IL-1 beta) and tumor necrosis factor-alpha (TNF-alpha) genes and (b) subsequent cytokine-mediated induction of the acute-phase response as measured by hepatic metallothionein (MT) gene expression. The utility of this model was documented by in situ hybridization which showed that acute induction by LPS of the IL-1 beta gene occurred in cells found in liver sinusoids, consistent with Kupffer cells, whereas induction of the MT gene occurred in hepatocytes. The cell specific expression of these genes was further verified by Northern blot hybridization to LPS-treated liver RNA which showed that the LPS-mediated increase in hepatic cytokine mRNA levels, unlike that of MT, was not prevented by D-galactosamine (D-GalN) treatment. Northern blot hybridization established that HS pretreatment did not block the acute induction of hepatic cytokine mRNAs (IL-1 beta and TNF-alpha) by LPS nor did it induce these cytokine mRNAs in the absence of LPS. Northern blot hybridization further established that HS did not prevent LPS-mediated activation of hepatocyte MT gene expression. Thus, HS does not prevent LPS from activating liver leukocytes. These results also suggest that HS pretreatment neither prevents the general release of cytokines from LPS activated leukocytes nor the general induction of acute-phase protein gene expression in hepatocytes.(ABSTRACT TRUNCATED AT 250 WORDS)

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Chloramphenicol activates translation of cat-86 mRNA by stalling a ribosome in the leader of individual transcripts. Stalling triggers two sequential events: the destabilization of a region of secondary structure that sequesters the cat ribosome-binding site (RBS-C), and the initiation of cat translation. The site of drug-dependent ribosome stalling is dictated by the leader sequence, crb; crb causes a ribosome to stall with its aminoacyl site at leader codon 6. We demonstrate that induction requires the maintenance of a precise spatial relationship between crb and sequences within the left inverted repeat of the secondary structure. Therefore, destabilization of the secondary structure during chloramphenicol induction may result from the interaction of a stalled ribosome with a specific sequence in the secondary structure rather than from non-specific masking of RNA sequences. cat-86 regulation also depends on the distance that separates crb from RBS-C. This interval of 33 nucleotides was incrementally increased and decreased by mutations within a loop in the secondary structure. Shortening the distance between crb and RBS-C by three nucleotides reduced induction by half and a deletion of nine nucleotides abolished induction. Insertion mutations were without effect on induced expression but elevated basal expression. The results indicate that when the A site of a ribosome occupies leader codon 6 the secondary structure is destabilized and there is no interference with entry of a second ribosome at RBS-C. The data further demonstrate that when the A site of a ribosome in the leader is within 30 nucleotides of RBS-C, cat expression decreases. This decrease probably results from competition of the leader ribosome with the ribosome initiating cat translation. Our observations demonstrate that in wild-type cat-86 the distances between crb and the secondary structure, and between crb and RBS-C provide the precise spacing necessary to achieve three interdependent effects: the destabilization of the RNA secondary structure by a ribosome stalled at crb; a lack of competition between a ribosome stalled at crb and the initiating ribosome; and maintenance of a low, but measurable, basal level of cat expression. The spatial relationships identified as necessary for the regulation of cat-86 are conserved in the regulatory regions for five other inducible cat genes.

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In Escherichia coli, RecA protein regulates the DNA damage-inducible survival-enhancing SOS response. Mutant allele recA730, which causes constitutive SOS expression, is lethal at high temperatures in B/r, a derivative of wild-type B, but not in K-12 or in certain B/r--K-12 hybrids. We present evidence that killing is due to SOS induction of a defective retronphage, phi R86, which is integrated into the B/r chromosome at 19 min, but is absent in K-12. phi R86 contains retron EC-86 which encodes reverse transcriptase and a small multicopy DNA-RNA complex, msDNA-RNA. Induction of phi R86 in recA730 B/r strains results in inhibition of host DNA replication before cell death. A retronphage 'killer' gene, ORF336, when overexpressed from a plasmid, causes similar effects without SOS induction. phi R86 is not detectably u.v.-inducible in recA+ strains.

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The effect of factors released from N2A neuroblastoma cells on the expression of myelin protein genes in glioma C6 cells, i.e., proteolipid protein (PLP) and myelin-associated glycoprotein (MAG), was studied. Both cells lines were propagated in serum-free DMEM-F10 (1:1) medium. The addition of 50% N2A conditioned medium (N2ACM) stimulated the proliferation of C6 cells by approximately 4.5 fold as compared to control cells. The N2ACM-treated cells formed aggregates indicating increased cell-cell affinity. The exposure of C6 cells to N2ACM transiently stimulated the expression of both the MAG-specific and the PLP-specific messages up to eight and four fold over the control values, respectively. The maximal upregulation of the PLP gene occurred two days after N2ACM administration and preceded that of the MAG gene by two days. The effect of N2ACM was dose-dependent in the range of 12.5 to 50%. The secretion of N2A paracrine factors that stimulated the myelin gene expression was also time-dependent. The optimal conditioning time for the release of the PLP gene-stimulating activity was one day, while the maximal MAG gene-stimulating activity was found in the medium conditioned for 3 days. This cellular system may provide a convenient model for studies on trophic neuronal-glial interaction. Furthermore, the results indicate a difference in the regulatory mechanisms between the PLP and the MAG genes.

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The effect of ascorbic acid (AA) on rat glioma C6 cells was studied. At physiological AA concentrations of 0.1 and 1 mM, no morphological and no proliferative alterations in the C6 cultures were detectable. Although the total RNA content per cell was not affected by the AA-treatment, AA upregulated the expression of myelin-specific genes, i.e. proteolipid protein (PLP) and myelin-associated glycoprotein (MAG) genes as assessed by northern blot analysis. The steady-state level of the specific mRNAs increased transiently in the AA-treated cells. Three days after AA administration the message level reached a maximum of 10- and 2-fold over control for the PLP and MAG genes, respectively. The upregulation of the genes was directly related to AA concentration. The present data indicate a possible involvement of AA in the regulation of myelin gene activity in the CNS.

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The PET122 protein is one of three Saccharomyces cerevisiae nuclear gene products required specifically to activate translation of the mitochondrially coded COX3 mRNA. We have previously observed that mutations which remove the carboxy-terminal region of PET122 block translation of the COX3 mRNA but can be suppressed by unlinked nuclear mutations in several genes, two of which have been shown to code for proteins of the small subunit of mitochondrial ribosomes. Here we describe and map two more new genes identified as allele-specific suppressors that compensate for carboxy-terminal truncation of PET122. One of these genes, MRP17, is essential for the expression of all mitochondrial genes and encodes a protein of M(r) 17343. The MRP17 protein is a component of the small ribosomal subunit in mitochondria, as demonstrated by the fact that a missense mutation, mrp17-1, predicted to cause a charge change indeed alters the charge of a mitochondrial ribosomal protein of the expected size. In addition, mrp17-1, in combination with some mutations affecting another mitochondrial ribosomal protein, caused a synthetic defective phenotype. These findings are consistent with a model in which PET122 functionally interacts with the ribosomal small subunit. The second new suppressor gene described here, PET127, encodes a protein too large (M(r) 95900) to be a ribosomal protein and appears to operate by a different mechanism. PET127 is not absolutely required for mitochondrial gene expression and allele-specific suppression of pet122 mutations results from the loss of PET127 function: a pet127 deletion exhibited the same recessive suppressor activity as the original suppressor mutation. These findings suggest the possibility that PET127 could be a novel component of the mitochondrial translation system with a role in promoting accuracy of translational initiation.

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We examined the effects of the benzolpyrrole-type Ca2+ channel activator FPL 64176 on voltage-dependent L-type Ca2+ channels in rat anterior pituitary (GH3) cells. FPL 64176 increased K(+)-dependent Ca2+ influx into GH3 cells with an EC50 value of 1.2 x 10(-7) M but had no effect on the binding of [3H]PN200-110 to GH3 cell membranes at concentrations up to 10(-6) M. Whole-cell patch-clamp electrophysiology revealed that FPL 64176 (1 microM) increased L-type Ca2+ channel current amplitude and shifted the current-voltage relationship in the hyperpolarizing direction. Furthermore, Ca2+ channel current activation and deactivation were prolonged. Single-channel analysis showed that FPL 64176 increased both the probability of channel opening and the mean channel open time. Interestingly, the effect of FPL 64176 on channel open time was highly voltage dependent, with much longer openings being observed at more hyperpolarized potentials. We conclude that FPL 64176 represents a new class of L-type Ca2+ channel activator with a novel site and mechanism of action.

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Extensive behavioral and biochemical characterization of cannabinoid-mediated effects on the central nervous system has revealed at least three lines of evidence supporting the role of a putative guanine nucleotide-binding protein-coupled cannabinoid receptor for cannabimimetic effects, (i) stereoselectivity, (ii) inhibition of the adenylate cyclase/cAMP second messenger system, and (iii) radioligand-binding studies with the synthetic cannabinoid [3H]CP-55,940 indicating a high degree of specific binding to brain tissue preparations. Based on recent findings from our laboratory demonstrating that delta 9-tetrahydrocannabinol markedly inhibited forskolin-stimulated cAMP accumulation in mouse spleen cells, the presence of a guanine nucleotide-binding protein-coupled cannabinoid receptor associated with mouse spleen cells and its functional role in immune modulation were investigated. In the present studies, stereoselective immune modulation was observed with the synthetic bicyclic cannabinoid (-)-CP-55,940 versus (+) CP-56,667 and with 11-OH-delta 8-tetrahydrocannabinol-dimethylheptyl, (-)-HU-210 versus (+)-HU-211. In both cases, the (-)-enantiomer demonstrated greater immunoinhibitory potency than the (+)-isomer, as measured by the in vitro sheep red blood cell antibody-forming cell response. Radioligand binding studies produced a saturation isotherm exhibiting approximately 45-65% specific binding to mouse spleen cells. Scatchard analysis demonstrated a single binding site on spleen cells, possessing a Kd of 910 pM and a Bmax of approximately 1000 receptors/spleen cell. RNA polymerase chain reaction of isolated splenic RNA using specific primers for the cannabinoid receptor resulted in the amplification of a 854-kilobase predicted product that hybridized with cannabinoid receptor cDNA, demonstrating the presence of cannabinoid receptor mRNA in mouse spleen. Together, these findings strongly support the role of a cannabinoid receptor in immune modulation by cannabimimetic agents.

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Nicotine, a partial agonist, has a very low efficacy at the nicotinic acetylcholine receptor from Torpedo, but it is not clear whether this is because it is intrinsically poor at opening the ion channel or because, at concentrations that open the channel, it is also capable of blocking it. In this study, we exploited the action of ethanol, which increases the apparent affinity of cholinergic agonists for channel activation, and demonstrated that the weak action of nicotine is consistent with simultaneous activation and inhibition of the receptor. The presence of ethanol increased the efficacy of nicotine, producing an increase in the initial rate of cation efflux from acetylcholine receptor-rich membrane vesicles, as measured by a rapid quench-flow tracer ion assay. The initial rate of efflux increased with ethanol concentration until, in the presence of 1.5 M ethanol, the response to nicotine was indistinguishable from that of the full agonist carbamylcholine. The concentration-response curves for nicotine were bell-shaped, showing activation at low concentrations and inhibition at higher concentrations. Increasing concentrations of ethanol increased the apparent affinity of nicotine for channel activation and decreased its apparent affinity for channel inhibition. These actions broadened the bell-shaped curve, increasing the maximum response until it was equivalent to that of a full agonist. The apparent affinity of nicotine for its inhibitory site, derived from the aforementioned data, agreed with that determined independently by measuring the inhibition by nicotine of initial rates of ion efflux in response to acetylcholine. A value for the apparent affinity of nicotine for channel opening was estimated from the dependence of this parameter on ethanol concentration. When combined, these two parameters predicted the bell-shaped concentration-response curve for the action of nicotine. The results presented in this study are consistent with the notion that the efficacy of nicotine is determined by its relative affinities for channel activation and channel inhibition, but they do not rule out other contributions.

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TRH stimulates a biphasic increase in intracellular free calcium ion, [Ca2+]i. Cells stably transfected with TRH receptor cDNA were used to compare the response in lines with and without L type voltage-gated calcium channels. Rat pituitary GH-Y cells that do not normally express TRH receptors, rat glial C6 cells, and human epithelial Hela cells were transfected with mouse TRH receptor cDNA. All lines bound similar amounts of [3H][N3-Me-His2]TRH with identical affinities (dissociation constant = 1.5 nM). Both pituitary lines expressed L type voltage-gated calcium channels; depolarization with high K+ increased 45Ca2+ uptake 20- to 25-fold and [Ca2+]i 12- to 14-fold. C6 and Hela cells, in contrast, appeared to have no L channel activity. GH4C1 cells responded to TRH with a calcium spike (6-fold) followed by a sustained second phase. When TRH was added after 100 nM nimodipine, an L channel blocker, the initial calcium burst was unaffected but the second phase was abolished. GH-Y cells transfected with TRH receptor cDNA responded to TRH with a 6-fold [Ca2+]i spike followed by a plateau phase (>8 min) in which [Ca2+]i remained elevated or increased. Nimodipine did not alter the peak TRH response or resting [Ca2+]i but reduced the sustained phase, which was eliminated by chelation of extracellular Ca2+. In the transfected glial C6 and Hela cells without calcium channels, TRH evoked transient, monophasic 7- to 9-fold increases in [Ca2+]i, and [Ca2+]i returned to resting levels within 3 min. Thapsigargin stimulated a gradual, large increase in [Ca2+]i in transfected C6 cells, and subsequent addition of TRH caused no further rise. Removal of extracellular Ca2+ from transfected C6 cells shortened the [Ca2+]i responses to TRH, to endothelin 1, and to thapsigargin. The TRH responses were pertussis toxin-insensitive. In summary, TRH can generate a calcium spike in pituitary, C6, and Hela cells transfected with TRH receptor cDNA, but the plateau phase of the [Ca2+]i response is not observed when the receptor is expressed in a cell line without L channel activity.

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The inducibility of heritable mutations in female mammals has been measured in the mouse specific-locus test (SLT). For radiation-induced mutations, a large body of data has been accumulated that includes information about biological and physical factors that influence mutation yields. However, relatively few SLT studies in females have been conducted with chemicals to date. A single estimate of the spontaneous mutation rate in oocytes, 6/536,207, has been derived as the most appropriate one to subtract from experimental rates. This rate is highly significantly below the spontaneous mutation rate in males. Mutations recovered from females mutagenized at any time after about the 12th day post-conception are induced in non-dividing cells. In adult females, most oocytes are arrested in small follicles; maturation from this stage to ovulation takes several weeks. High-dose-rate radiations are more mutagenic in mature and maturing oocytes than in spermatogonia of the male; on the other hand, no clearly induced mutations have been recovered from irradiated arrested oocytes. Efficient repair processes have been invoked to explain the latter finding as well as the upward-curving dose-effect relation for acute irradiation, and the fact that dose protraction drastically reduces mutation yield from mature and maturing oocytes. The dose-protraction effect is much greater than that found in spermatogonia. Radiation-induced mutation rates in embryonic, fetal, and newborn females are overall lower than those in the mature and maturing oocytes of adults. A dose-protraction effect has also been demonstrated at an early developmental stage when the nuclear morphology of mouse oocytes most resembles that of the human. Of only 5 chemicals so far explored for their effect in oocytes, 2 (ethylnitrosourea, ENU, and triethylenemelamine, TEM), and possibly a third (procarbazine hydrochloride, PRC), are mutagenic--with at least one of these (ENU) mutagenic in arrested as well as maturing oocytes. However, the mutation rate is, in each case, lower than for treated male germ cells. By contrast, ENU-induced mutation yield for the maternal genome of the zygote is an order of magnitude higher than that for the zygote's paternal genome or for spermatogonia. A high proportion of mutants derived from chemical treatment of oocytes (including the oocyte genome in zygotes) are mosaics, probably owing to lesions affecting only 1 strand of the DNA. A characteristic of specific-locus mutations induced in oocytes is that they include a considerably higher percentage of large (multi-locus) lesions (LLs) than do mutations induced in spermatogonia.(ABSTRACT TRUNCATED AT 250 WORDS)

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Limited comparative data in mice indicate that chemical mutagens that induce dominant lethal mutations in males are not necessarily effective in females, but those which are effective in females are generally equally or more effective in males. Recently, however, a few chemicals have been identified that are female-specific with respect to induction of dominant lethal mutations. The antitumor antibiotic adriamycin is among them. Another antitumor antibiotic, bleomycin was examined for its ability to induce dominant lethal mutations in the reproductive cells of male and female mice. No dominant lethal or cytotoxic effects were observed in males treated with bleomycin, even at a maximum tolerated dose. In females, on the other hand, a dose nearly 1/4 of that used in males induced not only a high level of dominant lethal mutations but also killed oocytes in certain stages of follicular development. The effectiveness of bleomycin in inducing dominant lethal mutations in mouse oocytes makes it a valuable tool for investigating whether gonadal transport, inherent differences in the configuration of chromatin in the germ cells of the two sexes or other factors are responsible for the differential susceptibility to bleomycin, which implies potential gender-specific genetic risk in cancer chemotherapy.

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Results of continuing studies indicate that the mouse zygote and two-cell embryo stages are a window of susceptibility in the experimental induction of congenital anomalies with certain mutagenic agents. The mechanisms by which the mutagens initiate the pathogenesis of these developmental defects are not known. However, in certain cases there is evidence that a nonconventional, perhaps epigenetic, mechanism is involved. Detailed characterization of the spectrum of anomalies induced and comparison of responses at the various stages exposed allowed classification of the mutagens generally into two groups. One group is characterized by being effective only in the early stages of zygote development and capable of producing a relatively high incidence of fetal death and hydrops. The other group affects all of the zygote stages studied as well as the two cell-embryo, but does not increase the incidence of fetal death and hydrops. Except for hydrops, chemicals in the two groups do not differ in terms of the types of anomalies present among malformed live fetuses, which bear a resemblance to a subset of common, sporadic human developmental anomalies that are of unknown etiology. This similarity raises the possibility that certain human developmental defects may have their origins in events that happen in the zygote and early pre-implantation stages.

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The pre-implantation mammalian embryo is initially under the control of maternal informational macromolecules that are accumulated during oogenesis. Subsequently, the genetic program of development becomes dependent upon new transcription derived from activation of the embryonic genome. Several embryonic transcripts including those that encode growth factors, cell junction components and plasma membrane ion transporters are required for normal progression of the embryo to the blastocyst stage. The pattern of genes expressed and the overall program of development is subject to the influences of genomic imprinting as well as external influences encountered by the embryo within the maternal reproductive tract.

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A chronological series of coordinated alterations in oocyte chromosome and microtubule disposition occur during oogenesis and oocyte maturation in the mammal. Timely transitions in meiotic spindle and cytoplasmic microtubules, due to modifications in both the assembly competence of the tubulin pool and nucleation capacity of centrosomes, underscore key nuclear events during the progressive stages of meiosis I and II. The regulation of these transitional states during meiosis is discussed with respect to hormonal influences imparted to the oocyte within the follicular microenvironment, and the possible ways in which environmental perturbations may result in defective chromosomal partitioning during meiosis.

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The circumsporozoite (CS) protein that covers the surface of infectious sporozoites is a candidate antigen in malaria vaccine development. To determine the extent of B- and T-epitope polymorphism and to understand the mechanisms of antigenic variability, we have characterized the CS protein gene of Plasmodium vivax from field isolates representing geographically distant regions of Papua New Guinea (PNG) and Brazil. In the central repeat region of the CS protein, in addition to variation in the number of repeats, an array of mutations was observed which suggests that point mutations have led to the emergence of the variant CS repeat sequence ANGA(G/D)(N/D)QPG from GDRA(D/A)GQPA. Outside the repeat region of the protein, the nonsilent nucleotide substitutions of independent origin are localized in three domains of the protein that either harbor known T-cell determinants or are analogous to the Plasmodium falciparum immunodominant determinants, Th2R and Th3R. We have found that, with the exception of one CS clone sequence that was shared by one P. vivax isolate each from PNG and Brazil, the P. vivax CS protein types can be grouped into Papuan and Brazilian types. These results suggest that an in-depth study of parasite population dynamics is required before field trials for vaccine formulation based on polymorphic immunodominant determinants are conducted.

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Immunohistological and in situ hybridization techniques were used to study the influence of kainic acid-induced seizures and of pentylenetetrazol kindling on neurokinin B immunoreactivity and neurokinin B mRNA in the rat hippocampus. Pronounced increases in neurokinin B immunoreactivity were observed in the terminal field of mossy fibres 10-60 days after intraperitoneal injection of kainic acid. These slow but persistent increases in immunoreactivity were accompanied by markedly enhanced expression of neurokinin B mRNA in the granule cells and in hilar interneurons adjacent to the granule cell layer. These changes were preceded by transient increases in neurokinin B mRNA and immunoreactivity in CA1 pyramidal cell layer two and 10 days after kainic acid, which, however, subsided later on. Pentylenetetrazol kindling caused similar increases in neurokinin B mRNA expression in granule cells and in CA1 pyramidal cells, but not in hilar interneurons. In CA1, increased neurokinin B message was present two days after termination of the kindling procedure but not after 10 days. Sixty days after kainic acid injection, neurokinin B immunoreactivity extended to the inner-third of the molecular layer of the dentate gyrus. After pentylenetetrazol kindling, a neurokinin B-immunoreactive band was observed in the infrapyramidal region of CA3. Lesions of the dentate granule cells by local injection of colchicine in kainic acid-treated rats abolished the supragranular neurokinin B-positive staining, whereas it was almost unchanged after transection of the ventral hippocampal commissure. These observations suggest that neurokinin B immunoreactivity may be located in ipsilateral mossy fibres undergoing collateral sprouting to the inner molecular layer or to the infrapyramidal region in CA3, respectively. Preprotachykinin A mRNA, which encodes for neurokinin A and substance P, and substance P immunoreactivity were not changed in the hippocampus of epileptic rats compared with untreated animals. The observed changes in neurokinin B immunoreactivity and mRNA indicate that specific functional and morphological changes may be induced in hippocampal neurons by recurrent limbic seizures.

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A dopaminergic projection from the ventral tegmental area to the ventral pallidum was identified in the rat using anterograde tract tracing and combined retrograde tracing-immunocytochemistry. The projection was found to be topographically organized such that fibers innervating the ventromedial ventral pallidum arose from neurons located along the midline nuclei of the ventral mesencephalon, including the nucleus interfascicularis and nucleus linearis caudalis. Ventral tegmental neurons situated more laterally, in the nucleus parabrachialis pigmentosus and nucleus paranigralis, projected to the ventromedial and dorsolateral ventral pallidum. The substantia nigra did not supply a major contribution to this projection. The proportion of ventral tegmental area dopaminergic neurons projecting to the ventral pallidum ranged from approximately 30% to 60%. The functional significance of the projection is indicated since intra-ventral pallidum microinjections of dopamine elicited a dose-dependent increase in locomotor activity. Furthermore, whereas pretreatment of the ventral pallidum with the GABAA agonist muscimol has been shown to attenuate opioid-induced locomotor activity elicited from the ventral pallidum, it did not attenuate the dopamine-induced motor response. Thus, while mu-opioids in the ventral pallidum may presynaptically regulate GABAergic efferents from the nucleus accumbens, it appears that the dopaminergic input directly influences the ventral pallidal output neuron which is involved in locomotion.

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Previous observations have revealed labeling in the extracellular space surrounding boutons and unmyelinated fibers in superficial laminae of the spinal cord after injection of the tracer wheat germ agglutinin conjugated to horseradish peroxidase in dorsal root ganglia. The degree of extracellular labeling appeared related to the extent of the damage to the ganglia at the time of the injection. To determine whether injury might produce extracellular labeling, we investigated the effects of unilateral nerve crush or transection on spinal labeling after bilateral injections of the tracer into sciatic nerves. Confirming previous reports, labeling was confined to small dorsal root ganglion cells and to spinal laminae I and II, suggesting a selective affinity of this tracer for unmyelinated fibers. Labeling of both ganglion neurons and superficial spinal laminae was increased on the injured side, probably as a result of increased efficiency of receptor-mediated endocytosis. Electron microscopical observations revealed that the tracer was largely confined to unmyelinated dorsal root fibers bilaterally; a higher percentage of these fibers were labeled on the injured side. In the dorsal horn, the tracer was predominantly within unmyelinated axons and their terminals on the control side, whereas most of the labeling was extracellular and transneuronal on the injured side. The extracellular labeling surrounded unmyelinated fibers and their terminals in the spinal cord, but was excluded from the synaptic cleft. The demonstration that injury is accompanied by significantly increased release of this tracer from the terminals of unmyelinated fibers into the extracellular space suggests that endogenous substances may be released after peripheral lesions as a central signal of injury.

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We used an experimental model of neurogenic inflammation to study the contribution of the primary afferent peptides substance P, calcitonin gene-related peptide, galanin and somatostatin to plasma extravasation in rat synovium. Perfusion of the C-fiber excitotoxin, capsaicin (1.6 mM), through the knee joint of the pentobarbital anesthetized rat, increased plasma extravasation transiently (< 30 min). Perfusion of substance P (1 microM) or calcitonin gene-related peptide (100 nM), two primary afferent neuropeptides that are released by acute capsaicin administration, had no significant effect on plasma extravasation. Co-perfusion of these two neuropeptides, however, evoked an increase in plasma extravasation that was greater than that produced by capsaicin remaining above 250% of the baseline level by the end of the perfusion period (55 min). Capsaicin co-perfused with either galanin (100 nM) or somatostatin (1 microM) failed to increase plasma extravasation. Neither galanin nor somatostatin significantly affected increase in plasma extravasation induced by co-perfusion of substance P plus calcitonin gene-related peptide. Therefore, we suggest that galanin and somatostatin inhibit, presynaptically, the release of substance P and calcitonin gene-related peptide from primary afferent terminals. The interactions among these four neuropeptides provide a novel mechanism for the regulation of primary afferent neurogenic inflammation.

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Receptor binding assays have shown that diaminodecane (DA-10) reduced binding of open channel blockers to the N-methyl-D-aspartate (NMDA) subtype of postsynaptic glutamate receptor through an interaction with the polyamine regulatory site. Because the action of DA-10 was opposite to that of the polyamine agonist spermine and was reversed by polyamine antagonists, DA-10 has been classified as an inverse agonist at the polyamine site. Using whole-cell voltage-clamp and single-channel recordings from cultured rat cortical neurons, we show that at negative holding potentials DA-10 (1-300 microM) reduced NMDA receptor whole cell current (IC50 = 34 microM) and produced a flickery block of NMDA single-channel currents. The flickery block of NMDA single channels was voltage-dependent and not reversed by the polyamine antagonist diethylenetriamine (DET). Potential mechanisms for the flickery block of NMDA single channel currents are discussed.

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There is a widely held view that the cerebellum and basal ganglia act via separate subcortical channels. In rodent, however, electrophysiological evidence suggests that the output of these two systems is partly sent to a common set of thalamic neurons. In this study, the pattern of thalamic innervations provided by the deep cerebellar nuclei, the entopeduncular nucleus, and the substantia nigra pars reticulata was reinvestigated in the rat using the anterograde tracers Phaseolus vulgaris leucoagglutinin and wheat germ agglutinin. Although the results confirm the existence of some overlap in the cerebellar and basal ganglia projection fields, they also show that in such convergent areas the cerebellar innervation is modest and consists of sparsely distributed fibers of thin diameter that provide a few scattered terminal boutons. These observations are consistent with the view that, in rodent as in higher mammalian species, the cerebellum and the basal ganglia act mainly via distinct thalamo-cortical channels.

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Beas-Zarate and coworkers (Eur. J. Pharmacol., 198 (1991) 7-14) recently reported markedly reduced concentration of presynaptic serotonin neurotransmitter markers in cerebellum of rodents which had suffered destruction of the inferior olivary-cerebellar (climbing fibre) projections by the neurotoxin 3-acetylpyridine; these experimental animal data suggested that serotonin might be one of the neurotransmitters released by climbing fibres. We measured the concentration of serotonin and its major metabolite 5-hydroxyindoleacetic acid (5-HIAA) in autopsied cerebellar cortex of 14 patients with dominantly-inherited olivopontocerebellar atrophy (OPCA) who all had near-total degeneration of the inferior olivary climbing fibres. As compared with the controls, mean concentration of serotonin in cerebellar cortex of the OPCA patients was normal whereas 5-HIAA levels (+79%, P less than 0.02) and 'turnover' ratio 5-HIAA/serotonin (+148%, P less than 0.05), on average, were significantly elevated. These data do not support the notion that serotonin is a predominant neurotransmitter of the human climbing fibre. However, the markedly elevated serotonin turnover ratio suggests the possibility of increased serotonergic neuronal activity, which might alter, and perhaps improve, the functioning of the preserved cerebellar cortical neurones in OPCA.

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