Patent Application: US-201113181213-A

Abstract:
a method of improving nutrition and / or treating low grade inflammation in an elderly human subject comprises administering to said subject a cysteine source so as to provide metabolically available cysteine in the diet of said subject in a proportion relative to all available amino acids which is greater that the proportion of cysteine relative to all amino acids which corresponds to the requirements of a healthy young human subject .

Description:
the present invention is based on a study of methionine kinetics in the elderly compared to young subjects which also explored the effect of ageing on the response to a mild inflammatory challenge induced by a vaccination . more particularly , the aims of the study were to investigate the effects of ageing and mild inflammation on methionine kinetics , especially the bioconversion of methionine into cysteine and the meaning of these metabolic changes in term of sulfur amino acid requirement during ageing . methionine is an important amino acid because it is nutritionally indispensable and also the source of sulfur for cysteine synthesis . cysteine becomes conditionally indispensable in inflammatory conditions ( 13 , 14 ) and there is evidence of increased prevalence of inflammation with advancing age ( 1 - 3 , 6 ). sulfur amino acid metabolism is regulated through homocysteine production from methionine ( transmethylation , tm ) and the balance between the two pathways of homocysteine utilization ( transsulfuration , ts and remethylation , rm ). an understanding of the effect of ageing on these metabolic pathways is essential to improve our knowledge on amino acid requirements in elderly . the values of methionine fluxes found in the group of young subjects are in the range of those previously reported ( 20 , 21 , 36 ). methionine - methyl and carboxyl fluxes and the components of the methionine cycle were increased in response to feeding as already shown with similar sulfur amino acid intakes ( 20 ). whatever the nutritional state , methyl - and carboxyl - methionine fluxes , non oxidative methionine disposal and methionine appearance from protein breakdown decreased with ageing . using a large number of men and women across the adult age span ( between 19 and 87 years ) and controlled diet and physical exercise , short et al . ( 40 ) have shown that leucine and phenylalanine kinetics decline with age in men and women even after correction for fat - free mass . up to now , the effect of ageing on methionine cycle was not clear since data on young and old subjects were reported in separate studies ( 20 , 21 , 28 , 36 ). among the components of the methionine cycle , the present study found that only homocysteine remethylation decreased with age despite normal folate status . indeed , it is well demonstrated that homocysteine remethylation is impaired in folate deficiencies ( 24 ). plasma homocysteine concentration was greater in the old subjects than in the young ones as generally observed ( 41 ). in contrast , methionine transmethylation and homocysteine transsulfuration rates were maintained during ageing . however , transsulfuration was better preserved than transmethylation since the ratio ts / tm was greater in elderly than in young subjects . moreover , the ratio rm / ts and the proportion of the methionine methyl - flux provided by homocysteine remethylation decreased in older people . taken together , these results indicate for the first time that methionine metabolism was preferentially directed towards transsulfuration and therefore cysteine synthesis in elderly . plasma cyst ( e ) ine concentration was found increased in older subjects as compared to young subjects . during studies of diseases associated with inflammation and oxidative stress , an activation of methionine cycle and transsulfuration pathways allowing an increased cysteine availability for glutathione synthesis ( 23 , 30 , 42 ) was found . glutathione is the most important intracellular antioxidant of the body and the maintenance of glutathione pools is essential for the defense of the organism ( 19 ). in this study , blood glutathione concentration was not modified in the elderly in contrast with previous studies showing a decline of plasma and blood concentrations with ageing ( 43 - 44 ). the concentration of some acute phase proteins , although in the normal range , especially fibrinogen , was found higher in the group of old subjects included in the present study than in the young one . this observation revealed a moderate basal inflammatory state in this group of elderly ( 66 - 76 years ), healthy subjects . data obtained in acute inflammation ( 22 , 23 , 45 ) let us hypothesize that the preferential orientation of methionine metabolism towards transsulfuration in old subjects was related to their low - grade inflammatory state . in the group of young subjects , vaccination , used as a model of moderate inflammatory stress , was also associated with changes in the methionine cycle in favour of a predominance of homocysteine transsulfuration over remethylation with no change in the transmethylation rate . indeed homocysteine remethylathion was decreased after vaccination in contrast to transsulfuration which was increased , leading to significant variations of the ratios ts / tm and rm / ts . these results are in general agreement with the perturbation of sulfur amino acid metabolism found in acute diseases . the contribution of the transsulfuration pathway to the methionine flux increased in burn patients as compared to controls and an increased cysteine synthesis from methionine has been found in septic rats ( 22 , 23 ). moreover , cysteine flux was more stimulated by infection than methionine flux ( 22 ). in addition , cysteine catabolism was reduced whereas its utilization for glutathione synthesis was increased ( 30 , 45 - 47 ). all these data strongly suggest an increased cysteine utilization even under a mild inflammatory stress . methionine balance was significantly decreased after vaccination . vaccination increased methyl - methionine flux and tended to increase carboxyl - methionine flux and protein turnover in the old subjects . in the same time , transmethylation tended to increase and remethylation to decrease less in old subjects than in the young ones . however , as observed in young people , homocysteine metabolism was oriented in favour of cysteine synthesis after vaccination . this change tended to be less pronounced than in the young subjects . for example , the ratio ts / tm was increased by 21 and 11 % by vaccination in the post - absorptive and fed states respectively in young subjects instead of 11 and 8 % in the elderly . taken together , these results may suggest that methionine utilization has to be preserved in elderly subjects after vaccination so that homocysteine remethylation was better maintained than in young subjects . therefore , the competition between homocysteine remethylation and transsulfuration seems more severe in elderly leading to a trend for a decrease in blood glutathione . another explanation could be a defective metabolic adaptation to an inflammatory challenge as already established for the immune system with advancing age ( 5 ). in the same subjects , we have found lower increases of acute phase proteins in response to vaccination in elderly subjects than in young subjects . there are no other published data on the effect of an inflammatory stress on amino acid metabolism in elderly subjects . it can be hypothesized that the age - related differences in the metabolic response could be linked to alterations of the inflammatory response . methionine metabolism was affected after vaccination in agreement with previous data obtained in acute diseases . the preferential methionine metabolism toward cysteine synthesis confirms an increased requirement of sulfur amino acids in these situations . the main finding of this study is a higher proportion of methionine entering the transsulfuration pathway in elderly subjects before vaccination , probably due to a low - grade inflammatory state in these subjects . these data suggest that healthy ageing may be associated with an increased cysteine requirement related to a low - grade inflammatory state . moreover , the effect of vaccination on methionine kinetics tended to differ in elderly as compared to younger subjects . these findings in term of sulfur amino acid requirement during ageing suggest that improvements in the nutrition of elderly human subjects could be achieved by supplementing the diet of such subjects with sulphur amino acids and in particular cysteine . compositions based on amino acids for use according to the invention may be intended to be administered orally , enterally or parenterally . such compositions contain , in a biologically and nutritionally acceptable medium , a cysteine source , i . e . free cysteine or cysteine in a form in which it is biologically available to the subject such as cysteine precursor , cysteine prodrug , proteins or protein hydrolysates which are rich in cysteine . the compositions contain the cysteine source in a proportion of available cysteine greater than the proportion of cysteine present in a nutritional composition corresponding to the requirements of a healthy young human subject . the proportion of cysteine is determined with respect to all the amino acids present in the composition . in a preferred composition , cysteine , in available form , is present in a proportion equal to or greater than 3 % with respect to all the amino acids present in the composition . compositions referred to above may contain the eight essential amino acids , namely leucine , isoleucine , valine , tryptophan , phenylalanine , lysine , methionine and threonine . the compositions may also contain glycine and / or arginine . the compositions can also contain taurine and / or glutamine . the composition may contain all amino acids usually contained in proteins . the compositions may be provided in a solution form as a mixture of amino acids . in one embodiment , the compositions can optionally be used in the form of pharmaceutically acceptable salts of the amino acids in a medium consisting generally of distilled water . the compositions can , according to one embodiment , contain , per 1 liter of amino acids solutions , the following constituents in the following amounts : cysteine is generally present in this composition in proportions equal to or greater than 3 % with respect to the total amount of amino acids present . preferably , cysteine is present in the composition at a level of from about 3 to about 10 % of the total amino acids present . cysteine can be used in the form of a cysteine precursor which can be converted to cysteine in vivo , for instance cystathionine . it can be used also as a prodrug or in the form of a pharmaceutically acceptable salt , such as in the l - oxothiazolidinecarboxylic acid form , especially when it is desired to avoid maintaining high cysteine plasma levels . it is , of course , possible to use other cysteine precursors or derivatives which can be converted to cysteine in vivo . cysteine can be used in a form combined with other amino acids such as in the protein or peptide form . the amounts of prodrug or cysteine precursors , peptide or protein are determined on the basis of available cysteine , i . e . the cysteine which is capable of being released from these derivatives . it is also possible to use the other amino acids mentioned above in the form of precursors or prodrugs , such as , for example , in the dipeptide form . the compositions can be provided not only in an aqueous solution form but also in other forms . thus , cysteine can be administered simply by modifying existing enteral oral formula by introducing therein the amount of cysteine compatible with the proportions in accordance with the invention . cysteine can also be provided in preparations intended for oral or enteral nutrition , for example by the use of proteins or peptide hydrolysates which are naturally rich in cysteine / cystine . cysteine should , in this case , also be present in amounts greater than the proportion of cysteine present in a composition intended for a healthy young human subject , this amount being determined with respect to all amino acids present in the free or combined form . it is also possible to express the necessary amount by taking account of the nitrogen content contained in the cysteine or of these precursors and that of the total amount of nitrogen in the composition . the percentage represents in this case the amount of nitrogen from the cysteine with respect to the total nitrogen present . cysteine bonded in a protein or a peptide hydrolysate is preferably present in proportions equal to or greater than 3 % with respect to all the amino acids present in the free or bonded form in the composition . when it is expressed as nitrogen content , the amount of nitrogen from free cysteine or cysteine in the form of one of its precursors , prodrug , protein or peptide hydrolysate is greater than or equal to 2 . 15 % with respect to the total nitrogen . the compositions can be provided in the form of a complete nutritional composition intended for parenteral administration . such preparations can contain , besides the amino acids or their derivates ( peptides ), carbohydrate ( glucose , fructose , sorbitol , and the like ) and / or lipid ( fatty acid triglycerides ) calorie sources . the lipids can contain long chains , medium chains , or short chains , triglycerides . the composition can also contain electrolytes , trace elements and vitamins . in these nutritional compositions , cysteine or its precursors will be present in proportions greater than 3 % with respect to the amount of amino acids present in the nutritive composition . compositions intended for parenteral administration can be provided in the form of an aqueous solution or non - aqueous solution , suspension or emulsion . when the composition is provided in the form of a nutritional composition intended for the oral or enteral route cysteine will be present in proportions greater than 3 % with respect to the amount of amino acids present in the nutritive composition . the supplementation of cysteine is obtained either with the amino acid itself , with a prodrug or with proteins or peptide hydrolysates which are particularly rich in cysteine . this composition , besides proteins , amino acids and peptides , can contain carbohydrate ( in the form of various hydrochlorides ) and / or lipid ( triglycerides of fatty acids containing long or medium chains , introduced in the form of oils of various origins ) calorie sources , electrolytes , trace elements and vitamins . cysteine can also be premixed with the other amino acids which can be used in the compositions for use in accordance with the invention . the cysteine can also be provided in the form of an aseptic powder which can be rehydrated at the time of administration or can be stored in the form of a frozen or refrigerated concentrate which is defrosted and mixed to the suitable concentration at the time of use . these compositions can be administered by devices known in the methods of oral , parenteral or enteral administration . a preferred dose of cysteine is from about 2 g to about 5 g per day . the dose may be administered as a single dose or as multiple sub - doses , e . g . if the efficacious dose is 3 g per day , the dose may be two 1 . 5 g sub - doses administered per day , or three 1 g sub - doses administered per day . further details of cysteine containing compositions can be found in u . s . pat . nos . 5 , 756 , 481 and 5 , 863 , 906 , the contents of which are hereby incorporated by reference . experimental details of the study on which the present invention is based are as follows : seven elderly volunteers ( 3 women and 4 men ) aged 66 to 76 years were compared with 8 young volunteers ( 4 women and 4 men ) aged 22 to 26 years ( table 1 ). volunteers gave their informed consent to participate in the protocol , which was approved by the local ethical committee for biomedical research ( ccprb auvergne ). volunteers were studied at 2 time points , 6 - 8 days before vaccination and 2 days after vaccination ( fig1 ). vaccination was performed by intramuscular injection of dt - polio ( diphtheria , tetanus , poliomyelitis ) and typhim vi ( typhoid ) vaccines ( institut merieux , lyon , france ). examples of menus were furnished to each volunteer in order to standardize their diet to provide adequate energy intake on the basis of their estimated energy expenditure and adequate protein intake for 4 days before each infusion study . on the evening before each infusion study , the subjects took their meal in the human nutrition unit ( clermont - ferrand ). at 0700 on the infusion day , an intravenous catheter was placed in a forearm vein for tracer infusion and in a dorsal vein of the hand for arterialised blood sampling after introduction of the hand into a ventilated box heated to 60 ° c . at 0800 , a priming dose of sodium [ 13 c ] bicarbonate ( 0 . 1 mg / kg ) ( eurisotop , saint aubin , france ), l -[ 1 − 13 c , methyl - 2 h 3 ] methionine ( 2 . 5 μmol / kg , cambridge isotope laboratory , andover , mass ., usa ) was administered intravenously , and an infusion of l -[ 1 - 13 c , methyl 2 h 3 ] methionine was begun and continued for 9 h ( 2 . 5 μmol / kg · h ). after the first 4 h , subjects were given small meals every 20 min for 5 h ( fig1 ). the diet given as a drink ( clinutren 1 . 5 , 1 . 5 ml / kg · h , nestlé , france ) provided five - twelfth the total daily protein and energy intake ( 1 g / kg · d and 27 kcal / kg · d ). the methionine and cyst ( e ) ine supply was 25 and 7 . 8 mg / kg · d respectively . blood and breath samples were taken just before the start and at half - hourly intervals during the last 90 min of each metabolic phase ( post absorptive and fed states ). blood was collected in heparin and edta - containing tubes . after centrifugation , plasma was stored at − 80 ° c . until analysed . breath samples were placed in evacuated tubes and stored at room temperature until measurements of 13 co 2 in the expired air by isotope ratio mass spectrometry . co 2 production was determined in the fasted and fed states by indirect calorimetry ( deltatrac , datex , geneva , switzerland ). to determine whether the experimental diet alters breath 13 co 2 baseline enrichment during the fed state , 6 additional subjects were studied in the same conditions than in the experiment except than no infusion of isotope was given . the subjects drank clinutren and breath samples were analysed for 13 co 2 enrichment . data for these six subjects were averaged for the last 90 min of the fed period and this value was applied to the carbon - 13 enrichment determined for each half - hourly period during the fed state . the free amino acids were isolated from a 1 ml plasma sample by acid precipitation of protein . 50 μl of β - mercaptoethanol was added to the sample in order to preserve methionine plasma enrichment of free methionine was measured by using a tert - butyldimethylsilyl derivative and gas chromatography - mass spectrometry under electron impact ionization ( automass , thermo quest finnigan , paris , france ). methionine , [ 1 - 13 c ] methionine and [ 1 - 13 c , methyl - 2 h 3 ] methionine were monitored at a mass - to - charge ratio ( m / z ) of 320 , 321 and 324 respectively . calibration graphs were prepared from standard mixtures of either [ 1 - 13 c ] methionine or [ 1 - 13 c , methyl - 2 h 3 ] methionine 13 co 2 enrichment was measured by gas chromatography isotope ratio mass spectrometry ( microgas , micromass , manchester , uk ). total , free and bound cysteine were measured in plasma according to the method of malloy et al . ( 29 ). briefly , total free cysteine was measured on plasma treated with dithiothreitol before deproteinization . total free cysteine ( free cysteine and cystine ) was determined on plasma treated with dithiothreitol after deproteinization . free cysteine was measured on deproteinized plasma without any reducing treatment . cystine was then calculated by difference between unbound cysteine and free cysteine . total erythrocyte glutathione was measured by a standard enzymatic recycling procedure as described previously ( 30 ). plasma total homocysteine was measured as described by pfeifer et al . ( 31 ) and plasma folates as described by wright et al ( 32 ). methionine kinetics were calculated according to the model of storch et al . ( 20 ) and raguso et al ( 33 ) ( fig2 ). briefly , whole - body methionine - methyl flux rate ( q m ) and whole body methionine - carboxyl flux rate ( q c ) were calculated as follows q m =( i × e i )/( e 4 × r ) q c =( i × e i )/( e 1 + e 4 × r ) where i and e i are the infusion rate and the isotope enrichment respectively of [ 1 - 13 c , methyl - 2 h 3 ] methionine , and e 1 and e 4 are the plateau plasma enrichments of [ 1 - 13 c ] methionine ( m + 1 ) and [ 1 - 13 c , methyl 2 h 3 ] methionine ( m + 4 ) respectively . the correction factor r was used for the plasma intracellular gradient in methionine enrichment . the value used was 0 . 8 according to storch et al . ( 20 ). in steady state conditions , the flux is the sum of inputs or the sum of outputs . hence in the post absorptive state where b met is the rate of methionine appearance from protein breakdown , s met is the rate of methionine disappearance via non oxidative metabolism , an index of the rate of protein synthesis , ts is the transsulfuration rate and a is the total methionine entry from the tracer and the alimentary input . in steady state conditions , whole - body methionine - methyl flux rate can also be related to its individual components as follows q m = i ( or a )+ b met + rm = s met + tm ts = v 13 co 2 /( e 1 + e 4 × r ) where v 13 co 2 is the rate of 13 c output in expired air corrected for the retention of 13 co 2 according to hoerr et al . ( 34 ). finally s met is calculated from the difference between q c and ts , b met from the difference between q and i or λ , and methionine balance from the difference between s met and b met . differences between young and old subjects were tested by unpaired t - test . for data obtained only in the basal state ( post - absorptive state before beginning tracer infusion ), differences were tested by anova for repeated measurements ( statview ) for the effect of age and vaccination . otherwise , the effects of age , vaccination and nutritional state ( post - absorptive or fed ) were analysed by using a repeated measure analysis of variance ( with age as the between - subject factor and vaccination and nutritional state as the within - subject factors ). differences were considered to be significant when p & lt ; 0 . 05 . the elderly subjects included in the study were stringently selected for good health and clinical and biological features matched the admission criteria of the senieur protocol ( 35 ). however , these subjects showed greater plasma concentrations of some acute phase proteins , such as α1 - acid glycoprotein and fibrinogen and tended to show higher concentrations of crp ( p = 0 . 077 ) than did the young subjects , suggesting a low grade inflammatory state . in contrast , the plasma concentration of folates was similar in the two groups ( table 1 ). there was no significant effect of age or vaccination on plasma methionine and erythrocyte glutathione concentrations . vaccination had no effect on plasma cysteine and homocysteine concentrations . in contrast , the plasma concentration of the various forms of cysteine and of total homocysteine were greater in elderly than in young subjects ( table 2 ). the isotopic enrichments of plasma methionine and of 13 c in expired air during the fasting and fed periods before and after vaccination are summarized in table 3 for each group . whatever age and treatment , there was a significant effect of the nutritional state on methionine fluxes that were generally increased in the fed state except methionine released from protein breakdown which was decreased ( p & lt ; 0 . 001 ) ( table 4 ). before vaccination , methionine methyl flux was greater in young than in elderly subjects . there was a significant interaction between age and vaccination ( p = 0 . 027 ), indicating that the effects of vaccination on methionine - methyl flux differed in young and old people . indeed , no difference between the two groups was observed after vaccination . for the other methionine fluxes , there were no significant interactions between age , vaccination and nutritional state , but there were significant main effects ( table 4 ). without regard to vaccination and nutritional state , methionine - carboxyl flux ( p = 0 . 036 ), methionine non oxidative disposal ( p = 0 . 03 ) and methionine endogenous fluxes ( p = 0 . 033 ) were lower in elderly than in young subjects . a similar trend ( p = 0 . 077 ) was observed for methionine transmethylation . whatever the age of the subject and the nutritional state , vaccination significantly increased transsulfuration ( 5 . 18 ± 0 . 17 vs 5 . 73 ± 0 . 17 μmol / kg · h , p = 0 . 035 ) and reduced methionine balance ( 4 . 30 ± 0 . 17 vs 3 . 68 ± 0 . 17 μmol / kg · h , p = 0 . 022 ). homocysteine remethylation was significantly reduced by age ( 5 . 33 ± 0 . 27 vs 4 . 00 ± 0 . 29 μmol / kg · h , p = 0 . 006 ) and vaccination ( 5 . 00 ± 0 . 14 vs 4 . 44 ± 0 . 14 μmol / kg · h , p = 0 . 022 ). the interaction age - vaccination tended to be significant for rm which tended to be less decreased by vaccination in elderly , and s met and b met which tended to increase after vaccination in elderly . the proportion of methionine transmethylation that entered transsulfuration ( ts / tm ) was significantly increased by age ( p = 0 . 024 ), vaccination ( p = 0 . 0006 ) and nutritional state ( p = 0 . 0001 ) without any interaction between age , vaccination and nutritional state ( fig3 ). the ratio of remethylation to transsulfuration ( rm / ts ) was decreased by all factors ( age : p = 0 . 035 , vaccination : p = 0 . 0005 , and nutritional state : p = 0 . 0001 ). a significant interaction was found between vaccination and nutritional state ( p = 0 . 006 ), indicating that the effect of vaccination was less pronounced in the fed state than in the post absorptive ( pa ) state . the proportion of methionine - methyl flux provided by homocysteine remethylation ( rm / qm ) was significantly reduced by age ( p = 0 . 013 ) and vaccination ( p = 0 . 013 ) but there was no interaction between age , vaccination and nutritional state . fig2 . a schematic description of the methionine cycle with its components : transmethylation ( tm ), remethylation ( rm ) and transsulfuration ( ts ). if methionine is labelled on the methyl group and the carboxyl group , the methyl label will be lost during transmethylation and homocysteine remethylation will produce methionine labelled only on the carboxyl group . the carboxyl label will be lost during transsulfuration and will appear in carbon dioxide in breath . fig3 . relative activities of various components of methionine cycle in humans data are shown as means ± sem . ts / tm : main effects of age ( p & lt ; 0 . 05 ), vaccination ( p & lt ; 0 . 001 ) and nutritional state ( p & lt ; 0 . 001 ). rm / ts : main effects of age ( p & lt ; 0 . 05 ), vaccination ( p & lt ; 0 . 001 ) and nutritional state ( p & lt ; 0 . 001 ), vaccination by nutritional state interaction ( p & lt ; 0 . 01 ), age by vaccination interaction ( p = 0 . 19 ). rm / qm : main effects of age ( p & lt ; 0 . 05 ) and vaccination ( p & lt ; 0 . 05 ). significantly different from before vaccination ** p & lt ; 0 . 01 ; * p & lt ; 0 . 05 ; † p = 0 . 077 . 1 . ballou s p , lozanski f b , hodder s , et al . quantitative and qualitative alterations of acute - phase proteins in healthy elderly persons . age and ageing 1996 ; 25 : 224 - 30 . 2 . fu a , nair k s . age effect on fibrinogen and albumin synthesis in humans . am j physiol 1998 ; 275 : e1023 - 30 . 3 . papet i , dardevet d , sornet c , et al . acute phase protein levels and thymus , spleen and plasma protein synthesis rates differ in adult and old rats . j nutr 2003 ; 133 : 215 - 9 . 4 . salive m e , cornoni - huntley , j ., phillips , c . l ., et al . serum albumin in older persons : relationship with age and health status . j . clin . epidemiol . 1992 ; 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