Patent Application: US-2498204-A

Abstract:
the invention provides a method of increasing an immune response in a mammal . the method involves administering to the mammal an admixture comprising an immunogen and a plant lectin . the plant lectin acts as an adjuvant to increase an immune response against the immunogen . the method is especially well - suited for mucosal administration to humans and other mammals .

Description:
it is an aspect of the present invention that certain plant lectins act as mucosal adjuvants to increase immune responses , including an increased antibody titer , against a variety of immunogens , thus permitting simple , non - toxic , and cost - effective vaccine or immunogenic compositions to be prepared . vaccine or immunogenic compositions of the invention are admixtures comprising a plant lectin and an immunogen . such admixtures are especially suitable for mucosal delivery to mammals , including humans , and are thus useful for veterinary as well as human medical purposes . admixtures of the invention comprise a plant lectin and an immunogen . the immunogen and the lectin are not coupled together chemically , but are simply mixed together in an appropriate liquid medium , such as phosphate buffered saline or other isotonic saline solution . optionally , an admixture can comprise stabilizing agents , including antimicrobial agents , preservatives , and the like . the proportions of immunogen and lectin in the admixture can be varied , such as at least about 1 : 1 , 2 : 1 , 3 : 1 , 4 : 1 , 5 : 1 , 6 : 1 , 7 : 1 , 8 : 1 , 9 : 1 , or 10 : 1 , depending on the particular immunogen and lectin combination selected . if desired , at least 2 , 3 , 4 , or more different immunogens and / or lectins in varying proportions can be included in an admixture . lectins useful in the invention include plant lectins such as mistletoe lectin i ( ml - 1 ), mistletoe lectin ii ( ml - ii ), mistletoe lectin iii ( ml - iii ), wheat germ agglutinin ( wga ), and ulex europaeus ( uea - 1 ). other lectins which may be useful include lentil bean lectin , jack bean lectin ( concanavalin a ), and asparagus pea , broad bean , camel &# 39 ; s foot tree , castor bean , fava bean , hairy vetch , horse gram , japanese wisteria , jequirity , scotch labumum , lima beam , lotus , mung bean , osage orange , pagoda tree , garden pea , potato , red kidney bean , siberian pea tree , spindle tree , sweet pea , tomato , and winged pea lectins . type 2 ribosome inactivating proteins ( rip ), such as nigrin b , basic nigrin b , ebulin 1 , ebulin r , ebulin f , nigrin f , sna1 , sna1 ′, snav , snavi , sambucus nigra snlrp1 , snlrp2 , ricin , ricinus lectin , polygonatum rip , sieboldin - 6 , abrin , abrin 11 , modeccin , volkensin , ssa , cinnamonin , porrectin , gelorin , evanthis hyemalis , rip , iris agglutinin , ml - i , ml - ii , and ml - iii , are especially useful as adjuvants . such lectins contain an n - glycosidase a subunit responsible for the ribosome - inactivating activity and a galactose - specific carbohydrate - binding b subunit ( 29 ). ml - i , ml - ii , and ml - iii are strong mucosal adjuvants , which can stimulate high antibody titers in sera and mucosal secretions . type 2 rips which do not show in vivo toxicity , such as ebulin - 1 ( 32 ), nigrin b ( 33 ) and basic nigrin b ( 34 ), are particularly useful . alternatively , lectins can be genetically “ detoxified ,” for example by modifying one or more amino acids by site - directed mutagenesis such that the lectins retain their adjuvant properties but are non - toxic to the mammalian recipient ( see 35 - 39 ; ep 0880361 ; ep 620850 ; ep 95 / 903889 . 4 ). lectins in an admixture are preferably in an unbound , water - soluble form . suitable lectins for use in admixtures of the invention can be purchased from commercial suppliers , such as sigma . alternatively , lectins can be purified using protein purification protocols well known in the art , including size exclusion chromatography , ammonium sulfate fractionation , ion exchange chromatography , affinity chromatography , crystallization , electrofocusing , and preparative gel electrophoresis . immunogens against which a cellular and / or humoral response can be increased using a plant lectin adjuvant include proteins of infectious agents , such as viruses , bacteria , mycoplasmas , prions , and yeast , as well as hormones , allergens such as grass , weed , tree , and plant pollens , epithelia of animals such as cats , dogs , rats , and pigs , house dust , and wheat chaff . means of obtaining such immunogens are well known in the art . an immunogen need not be able to raise a cellular and / or humoral response in the absence of the plant lectin . admixtures of the invention can be administered to a recipient mammal in a variety of formulations . for example , admixtures can be entrapped in or adsorbed to the surface of microparticles , such as poly ( lactide - co - glycolides ) ( plg ) ( 35 ; u . s . pat . nos . 5 , 804 , 212 , 6 , 876 , 761 , and 5 , 603 , 960 ; pct / us99 / 17308 ). admixtures can also be administered in conjunction with bioadhesive polymers , such as those described in pct / us99 / 12105 , pct / us99 / 11906 , and u . s . pat . nos . 5 , 955 , 097 , 5 , 800 , 832 , 5 , 744 , 155 , and 5 , 814 , 329 . alternatively , enteric formulations of admixtures can be used for oral administration ( see u . s . pat . no . 5 , 968 , 554 ). an admixture of the invention can be administered to a mammal by injection , i . e ., subcutaneous , intramuscular , or other parenteral injection , such as transdermal or transcutaneous injection , by oral ingestion , or by intranasal administration . admixtures can be administered to any mammal in which it is desired to increase an immune response , including but not limited to rats , cats , dogs , rabbits , horses , cows , mice , guinea pigs , chimpanzees , baboons , and humans . mucosal administration , particularly intranasal administration into either one or both nostrils , is preferred . doses can be delivered , for example , in one or more drops or using a spray , such as an aerosol or non - aerosol spray . if desired , multiple administrations of an admixture can be used to increase antibody titers against a particular immunogen . intervals between multiple administrations can be at least 1 , 2 , 3 , 4 , 5 , 6 , or 7 or more days , or at least 2 , 3 , or 4 or more weeks , depending on the particular immunogen and / or lectin in the admixture . the volume of admixture to be administered will vary according to the mode of administration and size of the mammal . typical volumes for in nasal administration vary from at least 5 , 10 , 15 , 25 , 50 , 75 , 100 , 200 , or 250 : 1 , to at least 500 : 1 or more per intranasal dose . the concentration of immunogen in an admixture also will vary according to the particular immunogen and route of administration selected . for intranasal administration , for example , the concentration of an immunogen in an admixture varies from at least 0 . 033 , 0 . 67 , 0 . 1 , 0 . 2 , 0 . 33 , 0 . 5 , 0 . 67 , 0 . 75 , 1 , 2 , 2 . 5 , 5 , 7 . 1 , 10 , 12 . 5 , 15 , 17 . 5 , 20 , or 25 : g /: 1 . admixtures of the invention preferably increase antibody production as well as t cell responses , including cytokine production , target - cell killing , macrophage activation , b - cell activation , and lymphokine production . admixtures of the invention preferably increase a t cell response or an antibody titer by at least 10 , 15 , 20 , 25 , 30 , 40 , 50 , 75 , or 100 percent or more relative to such responses to the immunogen alone in the absence of the plant lectin . methods of measuring t cell responses are well known in the art . ( see janeway et al ., eds ., 1997 , i mmunobiology : t he i mmune system in h ealth and d isease , 3d ed ., at pages 2 : 31 - 2 - 33 ; abbas et al ., 1997 , c ellular and m olecular i mmunology , 3d ed ., at pages 250 - 277 and 290 - 293 ). according to the invention , antibodies can be produced which are directed against the immunogen in the admixture . antibodies which specifically bind to the immunogen typically provide a detection signal at least 5 -, 10 -, or 20 - fold higher than a detection signal provided with other proteins when used in immunochemical assays , such as western blots , elisas , radioimmunoassays , immunohistochemical assays , immunoprecipitations , or other immunochemical assays known in the art . preferably , antibodies which specifically bind to a particular immunogen do not detect other proteins in immunochemical assays and can precipitate the immunogen from solution . antibody titer is preferably measured by elisa , as described in example 1 , below . igg , including igg subtypes igg1 , igg2a , igg2b , and igg3 , as well as iga antibodies directed against the immunogen can be measured in serum , in saliva , and in mucosal secretions , including vaginal , nasal , and gut washes ( see example 1 ). the complete contents of all patents and patent applications cited in this disclosure are expressly incorporated herein . the following examples are provided for exemplification purposes only and are not intended to limit the scope of the invention which has been described in broad terms above . cholera toxin ( ct ), ovalbumin ( ova , type v , hen egg ) and wga were obtained from sigma ( poole , uk ). pha from kidney bean was prepared as described previously ( 15 ). uea - i and lea were obtained from vector laboratories . ml - i was isolated as described previously ( 16 ). eight week old female balb / c mice ( harlan olac , bicester , uk ) were given free access to commercial stock diet ( labsure , manea , uk ) and water . groups of mice ( n = 10 ) were bled one week prior to the first immunization . on days 1 , 14 , 28 , and 42 , mice were immunized intranasally with pbs , ova ( 10 : g ) alone , or ova ( 10 : g ) mixed with ct ( 1 : g ), ml - i ( 1 : g ), lea ( 10 : g ), pha ( 10 : g ), wga ( 10 : g ), or uea - i ( 10 : g ). in other examples , mice were immunized intranasally with 5 : g glycoprotein d2 ( gd2 ) from herpes simplex virus type 2 on days 1 , 14 , 28 , and 49 alone or in an admixture with 1 : g of either ct , ml - i , ml - ii , or ml - iii . mice were dosed with 30 : 1 of each preparation ( 15 : 1 per nostril ) through fine tips attached to a pipette . blood samples were collected one day prior to each immunization by bleeding from the tail vein following a 10 minute incubation at 37 ° c . two weeks after the final immunization , animals were terminally anesthetized ( hypnorin plus diazepam ) to allow collection of salivary and vaginal secretions . mice were then killed by anesthetic overdose followed by exsanguination . blood was immediately collected and centrifuged , and the serum was stored at − 20 ° c . absorbent cellulose wicks ( whatman international , uk ) were used for collection of saliva and vaginal fluid as described previously ( 17 ). wash fluid ( ice - cold 0 . 01 m pbs , 50 mm edta , 5 mm pmsf , 5 : g / ml aprotinin ) was used for elution of antibody from wicks and for nasal and intestinal washes . saliva was collected by the insertion of a wick tip into the mouth for 2 minutes ( 17 ). antibody was extracted from wicks into 400 : 1 mucosal wash fluid . vaginal fluid was collected by repeated flushing and aspiration of 50 : 1 wash fluid and insertion of a wick for 2 minutes . antibody was extracted from wicks into 400 : 1 wash fluid . nasotracheal washes were collected from decapitated animals by backflushing 0 . 5 ml of mucosal wash fluid from the trachea . intestinal washes were obtained by flushing the small intestine with 10 ml of ice - cold wash fluid . all secretions were stored at − 20 ° c . until required for analysis . elisas were set up to enable measurement of specific igg , iga , and igg subclasses to ova , ct , and plant lectins . sera ( from 1 : 100 ) and mucosal secretions ( from 1 : 2 ) were titrated in the appropriate dilution buffer . microtiter plates ( immunolon 4 , dynatech ) were coated with 75 : 1 of immunogen per well ( 1 : g / ml for ct / lectins , 50 : g / ml when measuring responses to ova and 2 : g / ml when measuring responses to gd2 ) in carbonate - bicarbonate buffer , ph 9 . 6 , and incubated at 4 ° c . overnight . after washing , plates were blocked with 2 % gelatin / dilution buffer and incubated at 37 ° c . for 1 hour . plates were washed , and samples were added , serially diluted , and incubated at 37 ° c . for 1 hour . biotinylated antiserum in dilution buffer was added and incubated at 37 ° c . for 1 hour . after further washes , extravidin ® peroxidase ( sigma ) diluted 1 : 750 in dilution buffer was added and incubated at 37 ° c . for 30 minutes . plates were washed , and 50 : 1 / well of developing solution ( tmb microwell peroxidase substrate ( 1 - c ), kirkegaard and perry laboratories , gaithersburg , md .) was added . plates were incubated in the dark with shaking at 37 ° c . for 30 minutes . the reaction was stopped by addition of 1m h 2 so 4 , and the absorbance was read at 450 nm . elisa dilution buffers were as follows : ct ( pbs + 0 . 1 % tween ( pbst )), ova ( pbst ), wga ( 100 mm n - acetylglucosamine / pbst ), pha ( 0 . 1 % fetuin / pbst ), uea - i ( 30 mm l - fucose / pbst ), lea ( chitin hydrolysate ( 1 : 200 ) ( vector )/ pbst ), ml - i ( 100 mm d - galactose / pbst ). working dilutions of anti - igg ( 1 : 8000 ) and iga ( 1 : 2600 ) biotinylated capture antisera ( sigma ) were determined after preliminary assays with pre - immune and pooled positive sera . working dilutions of igg subclass antisera ( serotect ) were as recommended by the manufacturers ( igg1 ( 1 : 4000 ), igg2a ( 1 : 4000 ), igg2b ( 1 : 2000 ), igg3 ( 1 : 2000 )). endpoint titers were determined as the dilution of a serum or mucosal sample giving an od value of 0 . 1 units greater than the mean of control samples at the same dilution . total iga was quantified as specific iga with the following modifications : plates were coated with goat anti - mouse iga ( 1 : 8000 ; ∀- chain specific , sigma ), pbst was used as diluent , and 2 % gelatin in pbst was used as blocking solution . total iga levels were calculated from the linear region of the iga ( iga kappa , sigma ) standard curve . total iga endpoint titers were determined as the dilution of a sample giving an od value of 0 . 1 units greater than buffer alone . data are expressed as the mean ± standard deviation . an unpaired two - tailed t - test was used to test for significance between groups . where the standard deviations were significantly different between groups , a nonparametric test ( kruskal - wallis test with dunn &# 39 ; s multiple comparison post test ) was used to assess significance . kruskal - wallis nonparametric test with dunn &# 39 ; s multiple comparison post test was also used to assess significance of the total iga data . the effect of immunization on total iga levels in sera and secretions mice were immunized by the intranasal route on days 1 , 14 , 28 , and 42 with either pbs , ova ( 10 : g ) alone , or ova ( 10 : g ) together with ct ( 1 : g ), ml - i ( 1 : g ), lea ( 10 : g ), pha ( 10 : g ), wga ( 10 : g ) or uea - i ( 10 : g ). samples were collected two weeks after the final immunization . the results are shown fig1 . data represent the mean ± sd . after four intranasal immunizations with ct + ova there was a significant increase in the concentration of total nasotracheal wash iga ( p & lt ; 0 . 01 ) compared with all other groups . co - administration of ct with ova did not result in a significant rise in total iga concentration in sera or the other mucosal secretions sampled . there was no significant effect of immunization with any of the plant lectins on total iga levels in any of the secretions or in serum . the adjuvant effect of plant lectins on ova - specific serum antibody responses mice were immunized intranasally on days 1 , 14 , 28 , and 42 with either ova ( 10 : g ), alone or ova ( 10 : g ) together with ct ( 1 : g ), ml - i ( 1 : g ), lea ( 10 : g ), pha ( 10 : g ), wga ( 10 : g ) or uea - i ( 10 : g ). sera were collected 1 day before each immunization and at the termination of the study . fig2 a - d show the results of this experiment . points refer to individual data , and the symbol (−) represents the mean titer . two weeks after a single immunization , ova - specific serum igg was detected in 5 / 10 mice immunized with ct + ova and 1 / 10 mice immunized with ml - i + ova but ova - specific igg was not detected in the other groups . after a second dose , higher responses were measured with detectable antibody in all mice immunized with ct + ova ( mean titer 40321 ) and in 9 / 10 mice immunized with ml - i + ova ( mean titer 11090 ). of the other groups , specific igg was only detected in mice immunized with uea - i + ova ( mean titer 91 ). after four doses , the highest mean igg titers were in mice immunized with ct + ova , being approximately 286 - fold higher than in mice which received ova alone . the mean titer in the group immunized with ml - i + ova was approximately 118 - fold higher than in mice which received ova alone . titers in mice immunized with pha + ova were similar to those in mice administered with ova alone . administration of lea + ova resulted in a small increase in mean titer compared with ova alone ( 5 - fold ). delivery of wga and uea - i with ova respectively led to 41 - and 51 - fold increases in mean serum igg anti - ova titers compared with ova alone . in contrast to the groups which received ct + ova and ml - i + ova , responses in the groups immunized with wga or uea - i + ova were highly variable . as a result , after the final dose only the ct + ova and ml - i + ova groups ( difference not significant between groups ) had mean ova - specific igg titers significantly higher ( p & lt ; 0 . 001 ) than the ova only group . titers in these groups were also significantly higher than in the pha + ova group ( p & lt ; 0 . 001 ). in contrast to the high levels of specific igg , very low titers of ova - specific serum iga were detected . in fact , after the final dose , significant levels of ova - specific serum iga were only detected in mice immunized with ct + ova ( mean titer , 220 ) and ml - i + ova ( mean titer , 80 ). mice were immunized intranasally on days 1 , 14 , 28 , and 42 with ova ( 10 : g ) alone or ova ( 10 : g ) together with ct ( 1 : g ), lea , ( 1 : g ), pha ( 10 : g ), wga ( 10 : g ), or uea - i ( 10 : g ). samples were collected two weeks after the final immunization . fig3 shows the results of this experiment . points refer to individual data , and the symbol (−) represents the mean titer . analysis of the subclass profile of ova - specific igg antibodies indicated a very biased response . the igg1 titers were similar to the titers of ova - specific igg in most groups . in mice immunized with ct + ova and ml - i + ova respectively , the mean titers were approximately 450 - fold and 255 - fold higher than in mice immunized with ova alone . titers in the ct + ova group were significantly higher than in all groups except ml - i + ova ( p & lt ; 0 . 05 ). titers in the ml - i + ova group were significantly higher than in groups which received ova alone or pha + ova ( p & lt ; 001 ). ova - specific igg2a was detected in 8 / 10 and 2 / 10 mice immunized with ct + ova ( mean titer 561 ) and ml - i + ova ( mean titer 331 ), respectively . specific igg2a was not detected in the other groups . specific igg2b was only detected in 2 / 10 mice immunized with ct + ova and in none of the other groups . specific igg3 was not detected . these data are strikingly different to the ct - specific igg isotype responses in these mice where relatively high titers of specific igg2a and significant levels of igg2b and igg3 were detected ( table 1 ). the adjuvant effect of plant lectins on ova - specific mucosal iga responses mice were immunized intranasally on days 1 , 14 , 28 , and 42 with ova ( 10 : g ) alone or ova ( 10 : g ) together with ct ( 1 : g ) ml - i ( 1 : g ), lea ( 10 : g ), pha ( 10 : g ), wga ( 10 : g ), or uea - i ( 10 : g ). titers were measured two weeks after the final immunization . the results are shown in fig4 a - d . points refer to individual data , and the symbol (−) represents the mean titer . specific iga was detected at all mucosal sites sampled in mice immunized with ct + ova and ml - i + ova . there was no significant difference between the two groups . ova - specific salivary iga was not detected in mice immunized with ova alone , lea + ova or pha + ova , but was detected in 2 / 10 and 4 / 10 mice immunized with wga + ova and uea - i + ova , respectively . in contrast , specific salivary iga was measured in 9 / 10 and 10 / 10 mice immunized with ct + ova and ml - i + ova , respectively , with a two - fold higher mean titer in the ct + ova group . in vaginal washes , ova - specific iga was detected in 9 / 10 and 7 / 10 mice immunized with ct + ova and ml - i + ova , respectively . the mean titer was four - fold higher in the ct + ova group , but this was largely the result of one high responder . ova - specific vaginal wash iga was not detected in mice immunized with pha + ova and was detected in 1 / 10 mice immunized with either ova alone , lea + ova , or wga + ova , and in 3 / 10 mice immunized with uea - i + ova . high titers of ova - specific iga were detected in nasotracheal washes from all mice immunized with ct + ova or ml - i + ova , with approximately a five - fold higher titer in the ct + ova group . ova - specific nasotracheal wash iga titers were significantly higher ( p & lt ; 0 . 05 ) in mice immunized with ct + ova than in all groups except ml - i + ova . remarkably , the ova - specific nasotracheal wash iga titers in these groups were comparable to the serum iga titers . total iga titers in sera from mice immunized with ct + ova and ml - i + ova were 33 - fold and 73 - fold higher than in nasotracheal washes , respectively . specific iga was detected in the nasotracheal washes of 1 / 10 mice immunized with ova alone but not in any mice immunized with pha + ova . ova - specific nasotracheal wash iga was measured in 7 / 10 mice immunized with wga + ova and 5 / 10 mice immunized with uea - i + ova or lea + ova , respectively . ova - specific iga was detected in gut washes from all mice immunized with ct + ova or ml - i + ova , with approximately a four - fold higher titer in the ct + ova group . titers in these groups were not significantly different from each other but were significantly higher ( p & lt ; 0 . 05 ) than in all other groups . among the other groups , ova - specific gut wash iga was only detected sporadically at a maximum titer of 1 : 2 . mice were immunized intranasally on days 1 , 14 , 28 , and 42 with ova ( 10 : g ) together with ct ( 1 : g ), ml - i ( 1 : g ), lea ( 10 : g ), pha ( 10 : g ), wga ( 10 : g ) or uea - i ( 10 : g ). the results are shown in fig5 a - f . data are presented as the mean ± sd . data are titers of specific serum igg measured two weeks after the final dose of immunogen . ct - specific serum igg was detected in all animals after a single dose of ct + ova , and titers increased with each subsequent dose . specific antibodies of all four igg subclasses were detected in sera after four doses ( table 1 ). the highest titers were of igg1 , although ct - specific igg2a , igg2b and igg3 were also detected . after the final dose , ct - specific serum iga was detected in all mice , with a mean titer of 4481 . specific iga was also detected in all animals in saliva , vaginal wash , nasotracheal wash , and gut wash . salivary iga titers were relatively consistent between animals ( approximately 10 - fold lower mean titer than in serum ). total iga titers in saliva from these mice were 1340 - fold lower than in serum . vaginal iga titers were highly variable , with a single high responder increasing the mean titer . high titers of ct - specific iga were measured in nasotracheal washes from all animals with a mean titer comparable to the serum iga titer . specific iga was also detected in intestinal washes of all mice , but at a lower mean titer than at the other mucosal sites sampled . intranasal delivery of a single dose of ml - i + ova stimulated the production of ml - i specific igg in 3 / 10 mice . after the second and subsequent doses , high titers of specific igg were detected in all mice ( fig5 ). analysis of ml - i - specific serum igg subclasses found high titers of ml - i - specific igg1 ( table 1 ). ml - i - specific igg2a and igg2b were also detected , but specific igg3 was not detected . ml - i - specific iga was detected in all mice in serum and at all mucosal sites sampled after four doses . titers in the saliva were consistent for all animals , while a single very high responder increased the mean titer in the vaginal washes . high ml - i - specific iga titers were measured in nasotracheal washes of all animals . as with ct , the mean ml - i - specific titer in nasotracheal washes was comparable with the serum iga titer ( approximately two - fold lower ), which was remarkable as the total iga titers in nasotracheal washes were 73 - fold lower than in sera from these mice . specific iga was also detected in gut washes from all animals . in mice immunized with lea + ova , lea - specific serum igg was detected in 9 / 10 mice after a single dose . the titer increased after each subsequent does to a relatively high level after the final immunization ( fig5 ). analysis of igg subclasses found high titers of lea - specific igg1 and a low mean igg2a titer ( table 1 ). specific serum iga was detected in 7 / 10 mice after four doses , but at a low level . specific iga was also detected in all four mucosal secretions tested , although in comparison to the data in the ct + ova and ml - i + ova groups the titers were highly variable . pha - specific serum igg was detected in 1 / 10 mice after a single dose of pha + ova . after subsequent doses the titer increased , and specific igg was present in 8 / 10 animals after the final dose ( fig5 ). of the igg subclasses , only specific igg1 was detected ( table 1 ). low titers of specific serum iga were detected in all animals . pha - specific iga was not detected in saliva or vaginal washes but was detected in nasotracheal washes of 5 / 10 mice and gut washes of 1 / 10 mice . the lowest titers of specific antibody were elicited to wga , even after four doses of wga + ova ( fig5 ). specific igg1 was detected in 2 / 10 mice , and the other igg subclasses were not detected ( table 1 ). specific iga was detected in a number of mice after four doses , but at a maximum titer of 1 : 100 . low titers of specific iga were measured in a small number of mice in saliva , vaginal washes , and nasotracheal washes . these data are in contrast to the ova - specific data from this group , where relatively high levels of ova - specific serum igg were detected in a number of mice . uea - i - specific serum igg was not detected after a single dose of uea - 1 + ova , but was detected after subsequent doses and in 8 / 10 mice after the final dose ( fig5 ). specific igg1 was detected in 9 / 10 mice after the final dose ( table 1 ), specific igg2a in 1 / 10 mice , and igg2b and igg3 were not detected . specific serum iga was detected in 3 / 10 mice after the final dose . relatively low levels of iga were detected in saliva , vaginal washes , and nasotracheal washes . the present data indicates that the type of response elicited to the adjuvant and to the immunogen may differ . high titers of specific iggg were detected to both ova and ct , but while relatively high titers of ct - specific igg2a were measured , there was little or no ova - specific igg2a . delivery of ml - i + ova led to similar results , although the ml - i - specific igg2a titers were relatively low . previous work found higher ova - specific igg1 than igg2a titers after delivery of ova + ct , while higher titers of ct - specific igg2a than igg1 were found in the same mice ( 24 ). feeding mice with ct + keyhole limpet hemocyanin ( klh ) stimulated a strong klh - specific secretory iga response in mice which were high responders to ct with a much smaller effect in poor responders ( 29 ). thus , the oral adjuvant effect of ct depended on a strong immune response to ct itself . however , wga and uea - i increased the serum igg response to ova ( through not significantly ) and were not highly immunogenic . a recent study found that several dietary lectins , including pha , could trigger human basophils to release il - 4 and il - 13 . cona and pha - e , for example , induced il - 4 levels as high as those obtained by stimulation with anti - ige antibodies . lectins that stimulated high levels of il - 4 also triggered release of il - 13 and histamine , possibly by inducing il - 4 , which is required to switch towards a th2 - type response ( 30 ). despite the induction of high serum igg titers to ova in mice immunized with ct or ml - i + ova , serum iga was barely detectable . previous work found that immunogen - specific serum iga was not detected in mice after two intranasal immunizations with v . cholerae zot protein or lt + ova ( 19 ). similarly , it was found that oral delivery of lt + tt stimulated high levels of serum igg antibodies to tt , while anti - tt serum iga was not detected ( 23 ). while both ct and ml - i effectively stimulated anti - ova iga in all mucosal secretions , the levels were highest in nasotracheal washes and saliva . because the total serum iga titers in mice immunized with ct + ova and ml - i + ova were 33 - fold and 73 - fold higher than in nasotracheal washes and 1340 - fold and 1176 - fold higher than in saliva , respectively , the ova - specific iga titers at these sites indicate the induction of local responses . antibody titers in vaginal washes were highly variable , which may reflect hormonal influences ( 31 ). one microgram of each of these three lectins was admixed with 5 : g glycoprotein d2 ( gd2 ) from herpes simplex virus type 2 and delivered intranasally to mice on days 1 , 14 , 28 , and 49 , as described above . other mice were immunized intranasally with 5 : g gd2 alone or with 5 : g gd2 admixed with 1 : g ct . sera were collected 1 day before each immunization and at the termination of the study . titers of gd2 - specific serum igg antibodies were measured as described above . the results are shown in fig6 a - d . points refer to individual data , and the symbol (−) represents the mean titer . each of the three mistletoe lectins exhibited adjuvant activity comparable to that exhibited by ct . increases in the titers of gd2 - specific serum igg subclass antibodies after intranasal administration mice were immunized intranasally on days 1 , 14 , 35 , and 49 with either gd2 alone ( 5 : g ) or gd2 ( 5 : g ) together with ct ( 1 : g ), ml - i ( 1 : g ), ml - ii ( 1 : g ), or ml - iii ( 1 : g ). samples were collected two weeks after the final immunization . data are titers measured two weeks after the final immunization . fig7 a , igg1 ; fig7 b , igg2a ; fig7 c , igg2b ; fig7 d , igg3 . points refer to individual data and the symbol (−) represents the mean titer . p values in parentheses refer to significance of data compared with the gd2 only group . titers of serum - specific igg1 , igg2a , and igg2b antibodies were increased in the mice treated with each of the three mistletoe lectins . ml - i , ml - ii , and ml - iii increase gd2 - specific iga antibodies titers in mice after intranasal immunization gd2 - specific iga antibody titers were measured in secretions of mice immunized intranasally on days 1 , 14 , 35 and 49 with gd2 ( 5 : g ) alone or gd2 ( 5 : g ) together with ct ( 1 : g ), ml - i ( 1 : g ), ml - ii ( 1 : g ) or ml - iii ( 1 : g ). data are titers measured two weeks after the final immunization in fig8 . fig8 a , saliva ; fig8 b , vaginal wash ; fig8 c , nasotracheal wash ; fig8 d , intestinal wash . points refer to individual data and the symbol (−) represents the mean titer . p values in parentheses refer to significance of data compared with the gd2 only group . each of the mistletoe lectins increased the titers of gd2 - specific iga antibodies in each of the secretions tested . table 2 shows lectin - specific antibody responses in mice immunized intransally with gd2 ( 5 : g ), alone or together with ct / plant lectins ( 1 : g ). mice ( n = 10 ) were immnnunized on days 0 , 14 , 28 , and 42 , and samples were collected on days 56 and 57 . the mucosal ( intranasal ) immunogenicity and adjuvanticity of nontoxic type ii rip ( nigrin b , basic nigrin b , ebulin r1 ) and molecules related to their b subunits ( sna ii , selfd ) was compared with that of ml - 1 and ct . mice were immunized intranasally with gd2 ( 5 : g ) alone or together with plant lectins or cholera toxin ( ct ) ( 1 : g ). mice were immunized on days 0 , 21 , and 42 and samples were collected on days 56 and 57 . lectin - specific responses and responses to the bystander antigen , gd2 , were measured by elisa . fig9 shows the gd2 - specific total serum igg and igg subclass titers from mice immunized intranasally on days 1 , 21 , and 42 with either gd2 ( 5 : g ) alone or gd2 ( 5 : g ) together with 1 : g of ct , ml - i , nigrin b , basic nigrin b , ebulin r1 , sna ii or selfd . sera were collected at the termination of the study . points refer to individual data and the symbol (−) represents the mean titer . p values in parentheses refer to significance of data compared with the gd2 only group . fig1 shows gd2 - specific iga antibody titers measured in secretions of mice immunized intranasally on days 1 , 21 , and 42 with either gd2 ( 5 : g ) alone or gd2 ( 5 : g ) together with 1 : g of ct , ml - i , nigrin b , basic nigrin b , ebulin r1 , sna ii or selfd . data are titers measured two weeks after the final immunization in ( a ) saliva , ( b ) vaginal wash , ( c ) nasotracheal wash , ( d ) intestinal wash . points refer to individual data and the symbol (−) represents the mean titer . p values in parentheses refer to significance of data compared with the gd2 only group . table 3 shows the immunogenicity of type ii rip and related molecules . antibody responses were measured in mice immunized intranasally with gd2 ( 5 : g ) alone or together with ct / lectins ( 1 : g ). groups of mice ( n = 10 ) were immunized on days 0 , 14 , 28 and 42 and samples were collected on days 56 and 57 . fig1 shows gd2 - specific serum iga and igg antibody titers measured in mice immunized intranasally on days 1 , 21 , and 42 with either gd2 ( 5 μg ) alone or gd2 ( 5 μg ) together with 1 μg of ct , ml - i , or uea - 1 . data are titers measured two weeks after the final immunization . points refer to individual data and the symbol (−) represents the mean titer . p values in parentheses refer to significance of data compared with the gd2 only group . fig1 shows gd2 - specific igg subclass antibody titers measured in mice immunized intranasally on days 1 , 21 , and 42 with either gd2 ( 5 μg ) alone or gd2 ( 5 μg ) together with 1 ∞ g of ct , ml - i , or uea - 1 . data are titers measured in sera two weeks after the final immunization . points refer to individual data and the symbol (−) represents the mean titer . p values in parentheses refer to significance of data compared with the gd2 only group . fig1 shows gd2 - specific iga antibody titers measured in secretions of mice immunized intranasally on days 1 , 21 and 42 with either gd2 ( 5 μg ) alone or gd2 ( 5 μg ) together with 1 μg of ct , ml - i , or uea - 1 . data are titers measured two weeks after the final immunization in ( a ) saliva , ( b ) vaginal wash , ( c ) nasotracheal wash , ( d ) intestinal wash . points refer to individual data and the symbol (−) represents the mean titer . p values in parentheses refer to significance of data compared with the gd2 only group . fig1 shows mean concentrations of il - 5 , il - 4 , and ifn production and counts per minute for t - cell proliferation assay in ( a ) spleen cells and ( b ) cervical lymph nodes at week 8 after three immunizations ( days 0 , 21 , 42 ) with gd2 , ml - 1 or uea - 1 or with gd2 with ml - 1 , uea - 1 or ltk63 . spleen cells and cervical lymph node cells were isolated and stimulated in vitro with gd2 ( 0 μg / ml , 1 μg / ml , or 5 μg / ml ) or with gd2 coupled to latex beads diluted 1 : 1000 or 1 : 5000 or with pma / cd3 . fig1 shows ova - specific serum igg antibody titers from mice immunized by gavage on days 1 , 14 , 28 and 49 with either ova ( 5 mg ) alone or ova ( 5 mg ) together with ct ( 10 μg ), ml - i ( 10 μg ), ml - ii ( 10 μg ) or ml - iii ( 10 μg ). sera were collected 1 day before each immunization and at the termination of the study . fig1 a , serum igg titers after one dose ( day 13 ); fig1 b , serum igg titers after two doses ( day 27 ); fig1 c , serum igg titers after three doses ( day 48 ); fig1 d , serum igg titers after the final dose ( day 62 ). points refer to individual data , and the symbol (−) represents the mean titer . fig1 shows ova - specific serum igg subclass and iga antibody titers measured in mice immunized by gavage on days 1 , 14 , 35 , and 49 with either ova ( 5 mg ) alone or ova ( 5 mg ) together with ct ( 10 μg ), ml - i ( 10 μg ), ml - ii ( 10 μg ), or ml - iii ( 10 μg ). samples were collected two weeks after the final immunization . data are titers measured two weeks after the final immunization . fig1 a , igg1 ; fig1 b , igg2a ; fig1 c , igg2b ; fig1 d , igg3 . points refer to individual data , and the symbol (−) represents the mean titer . fig1 shows ova - specific iga antibody titers measured in secretions of mice immunized by gavage on days 1 , 14 , 35 and 49 with ova ( 5 mg ) alone or ova ( 5 mg ) together with ct ( 10 μg ), ml - i ( 10 μg ), ml - ii ( 10 μg ), or ml - iii ( 10 μg ). data are titers measured two weeks after the final immunization . fig1 a , saliva ; fig1 b , vaginal wash ; fig1 c , nasotracheal wash ; fig1 d , intestinal wash . points refer to individual data , and the symbol (−) represents the mean titer . table 4 shows ova - specific antibody responses in mice immunized by gavage with ova ( 5 mg ) alone or together with lectins ( 10 μg ) administered in 0 . 5 ml sodium bicarbonate . groups of mice ( n = 10 ) were immunized on days 0 , 14 , 28 , and 42 , and samples were collected on days 56 and 57 . table 5 shows ova - specific antibody responses in mice immunized with ova ( 5 mg ) alone or together with lectins ( 10 μg ). mice were administered with the antigen (± ml1 ) either by gavage in 0 . 1 ml pbs or incorporated in the feed pellet . groups of mice ( n = 5 ) were immunized on days 0 , 14 , 28 , and 42 , and samples were collected on days 56 and 57 . table 6 shows ml1 - specific antibody responses in mice immunized orally with ova ( 5 mg ) alone or together with lectins ( 10 μg ). mice were administered with the antigen (± ml1 ) either by gavage in 0 . 1 ml pbs or incorporated in the feed pellet . mice were immunized on days 0 , 14 , 28 , and 42 , and samples were collected on days 56 and 57 . following on from studies that demonstrated the efficacy of mistletoe lectins as mucosal adjuvants , these studies were carried out to assess the potential of type ii rip as adjuvants when administered transcutaneously . recent work has demonstrated the effective induction of immune responses when ct is used as an adjuvant by this route ( glenn et al ., 1998 , 1999 ). in addition to ml 1 , ct was used as a positive control and ebulin r1 because it was the most immunogenic of the nontoxic type ii rip when administered intranasally . groups of female balb / c mice ( n = 5 ) were immunized on days 0 and 21 and serum samples were taken on days 0 , 20 , and 35 for analysis by elisa . three different bystander antigens , bsa , dt and gd2 were investigated . antigens ( 50 μg ) were administered to mice either alone or mixed with lectin / toxin ( 50 μg ). specific antibody responses were determined by elisa . additionally , the responses to ct and lectins was measured to assess their immunogenicity by the transcutaneous route . the backs of mice were shaved with a no . 40 clipper and animals were allowed to rest for 48 hr . mice were anesthetized with hypnorm - diazepam during the immunization procedure . the skin was swabbed with ethanol 1 min prior to application of solution . immunizing solution ( 100 μl ) was applied to shaved skin over a 2 cm 2 area . after 30 min , a further 100 μl of distilled water was applied and mice were left for 90 min . mice were extensively washed with lukewarm tap water , patted dry , and washed again . table 7 shows bsa - specific serum antibody titers measured following 1 and 2 transcutaneous doses of bsa ( 50 : g ) alone or together with ct / plant lectin ( 50 : g ). table 9 shows gd2 - specific serum antibody titers measured following 1 and 2 transcutaneous doses of gd2 ( 50 : g ) alone or together with ct / plant lectin ( 50 : g ). due to the gga and igg1 levels were not determined . administration of lectins and collection of tissues . female balb / c mice were maintained on a normal stock diet with free access to water prior to experiments . mice were deprived of food overnight and lectins were delivered by gavage using curved oral dosing needles ( 20 g × 25 mm ) ( 1 mg lectin / mouse in 100 μl physiological saline ) to groups of 24 mice . water was available throughout . groups of 8 animals were sacrificed by halothane anesthesia followed by exsanguination after 1 hr , 6 hr and 24 hr . blood was collected by cardiac puncture . mice were dissected , and the entire gut was removed and divided into stomach , two parts of small intestine and large intestine . gut contents were washed out with 10 ml of ice - cold pbs to give an indication of the amount of unbound lectin present . gut tissues were placed in polythene bags and snap frozen in liquid nitrogen . sections of intestine were taken in each case and fixed in 4 % formalin for examination of lectin binding by histology . all gut tissues and washings were stored at − 20 ° c . until required for analysis . additionally , the liver , spleen and kidneys were collected from animals . tissues from animals administered with lectins or with control saline were extracted by homogenization in a 20 mm solution of diaminopropane . tissue pieces were placed in the extracting solution ( 995 μl 20 mm diaminopropane + 5 μl of 5 mg ml − aprotinin ( sigma )) and homogenized ( janke and kunkel ika ®- labortechnik , ultra - turrax ®) at 24000 rpm for 2 minutes on ice . the homogeniser head was washed with distilled water , in 1 ml of extracting solution and again in distilled water between samples . samples was centrifuged ( jouan , mri 22 ) for 20 min at 18600 g at 2 ° c . the supernatants were collected and stored at − 20 ° c . until required for analysis . to provide an indication of the amount of free ( unbound ) lectin present in the gut , the amount of lectin present in gut washings was analysed . washings ( 500 μl ) were added to dilution buffer ( 495 μl )+ the protease inhibitor aprotinin ( 5 μl of 5 mg ml − 1 ) and centrifuged ( microspin 12s , sorvall ® instruments , du pont ) at 8000 rpm for 10 min . after collection , blood samples were left at room temperature for 1 hour and centrifuged at 7000 rpm for 6 min ( microspin 12s , sorvall ® instruments , du pont ). plasma was collected and stored at − 20 ° c . until required for analysis . an elisa assay was set up to enable the quantification of wga in extracted tissue samples and washings . microtiter plates ( immunolon 4 , dynatech ) were coated with 75 μl a 1 : 64000 dilution of rabbit anti - wga per well in carbonate - bicarbonate buffer , ph 9 . 6 and incubated at 4 ° c . overnight . after washing , plates were blocked with pbst / 2 % gelatin / 200 mm n - acetylglucosamine and incubated at 37 ° c . for 1 hr . plates were washed ; standards and samples added , serially diluted in dilution buffer ( pbst / 200 mm n - acetylglucosamine ) and incubated at 37 ° c . for 1 hr . a standard curve for wga was constructed by titrating a wga solution from 10 ng / ml to 78 pg / ml . biotinylated anti - wga at a dilution of 1 : 16000 in dilution buffer was added and incubated at 37 ° c . for 1 hr . after further washes , extravidin ® peroxidase ( sigma ) at a dilution of 1 : 1000 , in dilution buffer was added and incubated at 37 ° c . for 30 min . plates were washed and 50 μl / well of developing solution ( tmb microwell peroxidase substrate ( 1 - c ) kirkegaard and perry laboratories , gaithersburg , usa ) was added and incubated in the dark with shaking at 37 ° c . for 30 min . the reaction was stopped by addition of 1 m h2so4 ( 50 μl / well ) and the absorbance read at 450 nm . wga levels were calculated from the linear region of the standard curve . sds - page and western blotting . sds - page gels were run and proteins transferred to pvdf membranes using a semi - dry transfer apparatus . after transfer , membranes were blocked in a 2 . 5 % casein solution for 30 min at room temperature . membranes were washed and the primary antibody ( biotin - labeled anti - lectin ) was added at a dilution of 1 : 2500 in 5 ml of 1 . 2 % casein solution . following incubation with agitation at room temperature overnight , membranes were washed extensively with pbs and extravidin ® peroxidase added at a 1 : 5000 dilution in 1 . 2 % casein . following a 1 hr incubation at room temperature , membranes were washed extensively with pbs and distilled water . excess fluid was blotted from membranes and the developing solution was added ( super signal ® west pico detection kit ( pierce , rockford , usa )) and left in the dark for 5 min . excess fluid was dried from membranes and membranes were exposed to film ( kodak x - omat ls ( sigma )) and processed . stability and binding of plant lectins in the mouse gut following oral gavage . the lectins , pha , wga and uea - 1 were stable in the mouse digestive tract for up to 6 hr after gavage ( tables 11 and 12 ; fig1 and 19 ). in the small intestine , the lectins were only detected at the subunit mw of the positive control . in the stomach there was an indication of lectin aggregation after 6 and 24 hr in the cases of pha and uea - 1 . however , most of the lectin detected in the stomach was also intact . analysis of lectin binding to the gut found differences in the location of lectin binding at 1 and 6hr after delivery . pha ( and wga , not presented ) bound to the proximal small intestine while uea - 1 was not detected in this region but bound to the distal small intestine ( table 11 ). the pattern of binding was similar at 1 and 6 hr after lectin administration . at 24 hr after delivery , lectins were not detected in homogenised gut tissues . this indicated that lectins did not detach from the gut and re - bind but more likely were excreted after detachment . table 11 shows detection of pha ( isotype e2l2 ) in the mouse digestive tract at 1 , 6 , and 24 hr after the delivery of 1 mg by gavage . the + symbol indicates that lectin was detected on western blots and the number of mice with a positive signal ( out of 8 in each case ) is presented in parentheses . the positive control pha subunit molecular weight was 29 . 5 kda . table 12 shows detection of uea1 in the mouse digestive tract at 1 , 6 , and 24 hr after the delivery of 1 mg by gavage . the + symbol indicates that lectin was detected on western blots and the number of mice with a positive signal ( out of 8 in each case ) is presented in parentheses . the positive control uea1 apparent subunit molecular weight was 34 . 7 kda . sensitive chemiluminescent western blotting assays were used to determine lectin uptake . for all three lectins , uptake into the liver and kidney was measured ( table 13 , fig2 and 21 ). fig2 shows that uea1 detected in kidney tissue are at a higher molecular weight than in the positive control . there is a cross reaction with control kidney tissue . however , additional bands are visible in mouse tissues from animals administered with lectin . these bands are at a higher molecular weight than in the control . lectins were detected in liver tissue from 1 to 24 hr after administration . however , the mw of the reactive bands was considerably higher than the expected subunit mw . in fact , none of the 3 lectins were detected at the expected subunit wm in internal organs . to get an indication of the degree of lectin uptake , a sandwich elisa was set up to quantify wga . this enabled a determination of lectins in the gut and internal organs ( table 13 ). the lectin was detected in gut homogenates for up to 6 hr after delivery at approximately the level of lectin administered . at 24 hr , no lectin was detected in homogenates . of the internal organs , the highest levels of lectin were detected in liver tissue . the level of lectin at this site increased from 1 to 24 hr . however , the highest amount of lectin detected ( 289 . 3 ng ) represented a small fraction of the delivered dose . very low levels of wga were detected in the blood cells or sera or in the spleen . the detection of the highest level of lectin in the liver and kidney is in line with the western blotting results where the lectins were detectable in the liver and kidney tissue but not in blood or the other organs . to determine if the absorbed lectins detected in the liver and kidneys retained the properties of the native lectins , native and tissue - extracted pha , wga and uea - 1 were incubated for 1 hr with a solution of trypsin . all three lectins were highly stable to the enzyme in their native form . however , the modified lectins detected in liver and kidney tissue were degraded by the enzyme ( fig2 ). this indicates that cells in the liver and kidney are capable of modifying plant lectins to forms which are sensitive to proteolysis . this may be a mechanism for degradation of ingested plant lectins which survive in the digestive tract and are absorbed . 1 . mcghee , j . r . and kiyono , h . 1999 . the mucosal immune system , p . 909 - 945 . in w . e . paul ( ed . ), fundamental immunology , 4th ed . lippincott - raven publishers , philadelphia . 2 . robertson , s . m ., and cebra , j . j . 1976 . a model for local immunity . ric clin lab . 6 : 105 . 3 . winner , l . iii , mack , j ., weltzin , r ., mekalanos , j . j ., krachenbuhl , j . p ., and neutra , m . r . 1991 . new model for analysis of mucosal immunity : intestinal secretion of specific monoclonal immunoglobulin a from hybridoma tumors protects against vibrio cholerae infection . infect immun 59 : 977 - 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