Stimulation of mucosal uptake of selenium from selenite by some thiols at various sites of rat intestine

The influence of several thiols (conc. 1 mmol/L) on mucosal uptake of⁷⁵Se from⁷⁵Se-labeled selenite (conc. 10 μmol/L) across the brush border of rat jejunum and cecum was investigated in vitro using a short-term uptake technique.l-Cysteine (l-Cys) stimulated⁷⁵Se uptake in the mid- and distal jejunum and cecum, but not in the proximal jejunum. The effect was maximal in the distal jejunum.d-Cys was less effective in the jejunum and similarly effective in the cecum.l-Leucine (l-Leu) andl-glutamic acid significantly reduced the stimulatory effect ofl-Cys on Se uptake in the distal jejunum, whereas the respective effect ofd-Cys was not diminished byl-Leu. Cysteamine stimulated mucosal⁷⁵Se uptake at all intestinal sites tested, whereas the effect of mercaptopyruvate was restricted to the distal jejunum. Thioglycolate also enhanced⁷⁵Se uptake in the distal jejunum. The stimulatory effects ofl-Cys, mercaptopyruvate, and thiologlycolate were Na⁺-dependent, whereas the effect of cysteamine also occurred in the absence of Na⁺. Mercaptosuccinate,d-penicillamine, ergothioneine, and thiosulfate did not enhance mucosa⁷⁵Se uptake. It is concluded from these findings that the reaction of some thiols with selenite results in Se compounds that are rapidly absorbed by the intestinal epithelium through various Na⁺-dependent and Na⁺-independent, mechanisms. The high bioavailability of Se from selenite found by others might thus be the result of the presence of thiols in the gastrointestinal tract.     

Stimulation of mucosal uptake of selenium from selenite byl-cysteine in sheep small intestine

The influence of cysteine (Cys) on mucosal uptake of 75Se-labeled selenite in sheep midjejunum was investigated using a short-term uptake technique. L-Cys (concn.: 1.0 mmol/L) significantly stimulated uptake of Se from selenite (concn.: 10 mumols/L). The stimulatory effect of L-Cys on mucosal uptake of Se from selenite was Na(+)- and pH-dependent. In the absence of Na+, or at an acidic pH (5.0), the stimulatory effect of L-Cys was abolished. L-alanine and L-lysine, but not L-glutamic acid inhibited uptake of Se from selenite in the presence of L-Cys. Preincubation of mucosal preparations with 10 mmol/L L-Cys produced enhanced mucosal uptake of Se from selenite. It is concluded from these results that L-Cys stimulates absorption of Se from selenite probably by generation of selenodicysteine and maybe cysteine selenopersulfide that are subsequently transported across the intestinal brush border membrane by Na(+)-dependent amino acid carriers. Furthermore, intracellular generation of selenodicysteine might contribute to the uptake of Se from selenite by maintaining the concentration gradient for diffusive uptake of selenite.     

Uptake of selenate and selenite by isolated intestinal brush border membrane vesicles from pig,sheep, and rat

Selenate and selenite uptakes by isolated intestinal brush border membrane vesicles (BBMV) from pig, sheep, and rat were investigated. Selenate uptake into jejunal and ileal, but not duodenal, BBMV from pig was stimulated by an inwardly directed transmembrane Na⁺ gradient (Na _out ⁺ >Na _in ⁺ ). Selenate transport into rat ileal and sheep jejunal BBMV was also enhanced in the presence of a Na⁺ gradient. Unlike selenate uptake, selenite uptake was not Na⁺ dependent, neither in pig small intestine nor in sheep jejunum and rat ileum. Uptake of selenate represented real uptake into the vesicular lumen, whereas selenite uptake was a result of an extensive binding of⁷⁵Se to the membranes. Thiosulfate at a 250-fold concentration of selenate completely inhibited Na⁺-dependent selenate uptake into pig jejunal BBMV. Furthermore, Na⁺-dependent sulfate uptake was totally inhibited in the presence of a 250-fold selenate concentration. The results clearly show that selenate transport across the BBM of pig jejunum and ileum, sheep jejunum, and rat ileum is partially energized by a transmembrane Na⁺ gradient. Moreover, it is concluded from the results that there exists a common transport mechanism for sulfate and selenate in the BBM. The extensive binding of⁷⁵Se from⁷⁵Se-labeled selenite to the membranes could be from a spontaneous reaction of selenite with membrane-associated SH groups.     

Transport ofl-histidine by human diploid fibroblasts in culture

Summary The transport ofl-histidine has been characterized in skin derived diploid human fibroblasts, cultured under strictly controlled conditions. The transport measurements were made on cells grown to subconfluency after 60 to 90 min timed preincubation. The data, at substrate concentrations ranging from 0.050 to 10 mmol/l, were analyzed by a computer program. A saturable transport system (K _m =0.25 mmol/l, V _max =17 nmol/mg protein per min) and a nonsaturable component of influx (K _d =1.6±0.4 nmol/mg protein/min per mmol) were found.l-Histidine displayed no Na⁺ requirement at either low or high concentrations. Inhibition analysis demonstrated thatl-histidine uptake at low concentration was poorly inhibited by amino acids known to be effective inhibitors of system A. The largest fraction ofl-histidine uptake was inhibited by 2-amino-bicyclo (2,2,1)-heptane-2-carboxylic acid (BCH), leucine, and tryptophan. These results indicated thatl-histidine is transported in human fibroblasts, mainly by the Na⁺ independent system L. The differences between this cell type and others studied previously are discussed. This work was supported in part by Grant 773 from UER de Médecine, Université Paris XI (France).     

Overproduction of glutathione by <Emphasis Type="SmallCaps">l</Emphasis>-cysteine addition and a temperature-shift strategy

The present study investigated the effects of three constituent amino acids on glutathione production in flask culture of Candida utilis. Although l-glutamic acid and glycine had little impact on cell growth and glutathione biosynthesis, l-cysteine positively influenced glutathione production, despite inhibiting cell growth when it was added prior to stationary phase. Adding 8 mmol/L of l-cysteine to the culture broth at 16 h boosted glutathione production by 91%, increasing the intracellular glutathione content by 106% compared to untreated controls. A temperature-shift strategy, in which we shifted batch and fed-batch cultures of C. utilis from 30 to 26°C, also significantly enhanced glutathione production. Applying both strategies (i.e. adding 20 mmol/L l-cysteine and shifting the temperature from 30 to 26°C) at 33 h enhanced the glutathione concentration and the intracellular glutathione content to 1,312 mg/L and 3.75%, respectively, during fed-batch cultivation (glucose feeding at a constant rate of 18.3 g/h). The average specific glutathione production rate under this condition was 129% higher than that of the control without strategy.     

Mechanisms underlying the cardioprotective effect of l-cysteine

In many tissues the availability of l-cysteine is a rate-limiting factor in glutathione production, though this has yet to be fully tested in heart. This study aimed to test the hypothesis that supplying hearts with 0.5 mM l-cysteine would preserve glutathione levels leading to an increased resistance to ischaemia reperfusion.Left ventricular function was measured in isolated perfused rat hearts before, during and after exposure to 45 min global normothermic ischaemia. Control hearts received Krebs throughout, whilst in treated hearts 0.5 mM l-cysteine was added to the perfusate 10 min before ischaemia, and was then present throughout ischaemia and for the first 10 min of reperfusion. Reperfusion injury was assessed from the appearance of lactate dehydrogenase (LDH) in the effluent. In two separate groups of control and treated hearts, ATP and glutathione (GSH) contents were measured at the beginning and end of ischaemia.Hearts treated with 0.5 mM l-cysteine showed a significantly higher recovery of rate pressure product (16,256± 1288 mmHg bpm vs. 10,324± 2102 mmHg bpm, p < 0.05) and a significantly lower release of LDH (0.54± 0.16 IU/g wet weight vs. 1.44± 0.31 IU/g wet weight, p < 0.05) compared to controls. Also, the l-cysteine treated group showed significantly better preservation of ATP and GSH during ischaemia in comparison to control.These results suggest that the mechanisms underlying the cardioprotective effects of 0.5 mM l-cysteine may include: increased anaerobic energy production either directly or through reduced degradation of adenine nucleotides; direct scavenging of free radicals; and/or improved antioxidant capacity through glutathione preservation.     

Transport of selenate and selenite across the brush border membrane of rat and sheep small intestine

Mucosal uptake of⁷⁵Se-labeled selenate and selenite across the brush border was investigated in sheep and rat small intestine, using 3-min mucosal exposures. Uptake of selenate and selenite occurred faster in rat than in sheep small intestine. With the exception of sheep duodenum, mucosal selenate uptake was Na⁺-dependent in sheep and rat small intestine. Mucosal uptake of selenite across the brush border was Na⁺-dependent only in sheep midjejunum, whereas it was Na⁺-independent in sheep duodenum and ileum and the rat whole small intestine. Various anions inhibited selenate transport in the presence of Na⁺ in sheep midjejunum in the order S₂O₂ ^2- = CrO₄ ^2- > MoO₄ ^2- and in rat ileum in the order CrO₄ ^2- = S₂O₃ ^2- > SC₄ ^2- > MoO₄ ^2-. Thiosulfate also inhibited mucosal selenite uptake in the presence of Na⁺ in sheep midjejunum. Preincubation of rat ileum with glutathione (GSH) enhanced mucosal selenite uptake, whereas selenate uptake remained unaffected. These results indicate that selenate transport across the brush border membrane is energized in part by the Na⁺-gradient. Moreover, the Na⁺-dependent transport mechanism for the Se salts apparently has an affinity for other anions (S₂O₃ ^2-, SO₄ ^2-, CrO₄ ^2-, MOo₄ ^2-). The findings further indicate that intracellular GSH plays a role in the absorption of selenite, probably by an increase of intracellular selenite metabolism. The Na⁺-independent mucosal uptake of selenate and selenite probably represents diffusion.     

The effect of various seleno-compounds on ehrlich ascites tumor cells

The effect of various concentrations and forms of selenium on in vitro viability of Ehrlich Ascites Tumor Cells (EATC) was investigated. Sodium selenite, selenium dioxide, seleno-dl-cystine, and seleno-dl-methionine, dramatically decreased EATC viability as measured by dye exclusion. Sodium selenate only marginally decreased EATC viability. Cell viabilities decreased with increasing selenium in the incubation media and as a function of time. Viabilities determined by dye exclusion did not correlate with the inhibition of tumor growth observed after treatment with selenium. Intraperitoneal injections of selenite in mice previously inoculated with EATC significantly inhibited tumor development. Delaying intraperitoneal injections of selenite to 5 and 7 days after inoculation of mice with EATC reduced the effectiveness of this nutrient on the inhibition of EATC growth. Incubation of EATC in vitro with supplemental selenium prior to injection of mice completely inhibited EATC development in vivo before any appreciable alteration in cell viability was observed.     

Living cell reaction process forl-isoleucine andl-valine production

Summary A new process (Living Cell Reaction Process) forl-isoleucine production using viable, non-growing cells ofBrevibacterium flavum AB-07 was optimised using ethanol as the energy source and -ketobutyric acid (-KB) as precursor.l-valine also could be produced from glucose at high yield by this process. This process differs from the usual fermentation method in that non-growing cells are used, and the production ofl-isoleucine andl-valine were carried out under conditions of repressed cell division and growth. Minimal medium missing the essential growth factor, biotin was employed as the reaction mixture for the production ofl-isoleucine andl-valine. The productivity ofl-isoleucine andl-valine were 200 mmol·l^–1 · day^–1 (molecular yield to -KB: 95%) and 300 mmol · l^–1 · day^–1 (molecular yield to glucose: 80%) respectively. The content ofl-isoleucine andl-valine in total amino acids produced in the each mixture were 97% and 96% respectively.     

Differences in the release ofl-glutamate andd-aspartate from primary neuronal chick cultures

Primary neuronal cultures were made from eight-day-old embryonic chick telencephalon. Ten-day-old cultures were used to study the release ofd-[³H]aspartate andl-[³H]glutamate. Thed-[³H]aspartate release was stimulated by increasing potassium concentrations, but it was not calcium dependent. In contrast, the potassium dependentl-[³H]glutamate release was calcium dependent, and furthermorel-[³H]glutamate release was optimal at potassium concentrations<30 mM. The inhibitors of glutamate uptake, dihydrokainate and 1-aminocyclobutane-trans-1,3-dicarboxylic acid (CACB), also referred to as cis-1-aminocyclobutane-1,3-dicarboxylate, were used in the release experiments. Dihydrokainate had no effect on aspartate release, whereas CACB increased both the basal efflux ofd-[³H]aspartate and the potassium evoked release. CACB had no effect on the potassium stimulatedl-glutamate release. We believe thatl-glutamate is released mainly by a vesicular mechanism from the presumably glutamatergic neurons present in our culture.d-aspartate release observed by us, could be mediated by a transporter protein. The cellular origin of this release remains to be assessed.     

Astrocytes as potential modulators of mercuric chloride neurotoxicity

Summary 1. MC has been shown to inhibit the uptake ofl-glutamate and increased-aspartate release from preloaded astrocytes in a dose-dependent fashion.2. Two sulfhydryl (SH-)-protecting agents; reduced glutathione (GSH), a cell membrane-nonpenetrating compound, and the membrane permeable dithiothreitol (DTT), have been shown consistently to reverse the above effects. MC-inducedd-aspartate release is completely inhibited by the addition of 1 mM DTT or GSH during the actual 5-min perfusion period with MC (5µM); when added after MC treatment, DTT fully inhibits the MC-inducedd-aspartate release, while GSH does not.3. Neither DTT nor GSH, in the absence of MC, have any effect on the rate of astrocyticd-aspartate release. Other studies demonstrate that although MC treatment (5µM) does not induce astrocytic swelling, its addition to astrocytes swollen by exposure to hypotonic medium leads to their failure to volume regulate.4. Omission of calcium from the medium greatly potentiates the effect of MC on astrocyticd-aspartate release, an effect which can be reversed by cotreatment of astrocytes with the dihydropyridine Ca²⁺-channel antagonist nimodipine (10µM), indicating that one possible route of MC entry into the cells is through voltage-gated L-type channels.     

The characteristics of arginine transport by rat cerebellar and cortical synaptosomes

The uptake ofl-[³H]arginine into synaptosomes prepared from rat cerebellum and cortex occurred by a high-affinity carrier-mediated process. The uptake of arginine appeared to be potentiated by removal of extracellular Na⁺, inhibited by high levels of extracellular K⁺, but not by depolarization with veratridine or 4-amino pyridine. The effect of Na⁺ removal or K⁺ elevation did not seem to be due to changes in intracellular Ca²⁺ or pH. In both brain regions, uptake was significantly inhibited byl-arginine,l-lysine,l-ornithine, andl-homoarginine, but not byd-arginine norl-citrulline. Uptake was also inhibited by N^G-monomethyl-l-arginine acetate, but not by N^G-nitro-l-arginine methyl ester nor N^G-nitro-l-arginine except in the cortex at a concentration of 1 mM. The results indicate that the carrier system operating in synaptosomes showed many of the characteristics of the ubiquitous y⁺ system seen in many other tissues, although its apparent sensitivity to variations in extracellular Na⁺ was unusual.     

Inhibition of sulfate excretion by (aminooxy)acetate induced stimulation of taurine excretion in rats

Summary l-Cysteine is mainly metabolized to sulfate and taurine through cysteinesulfinate pathway. Alternatively, sulfate is formed in rat liver mitochondria via 3-mercaptopyruvate pathway. Intraperitoneal administration of 5 mmol ofl-cysteine per kg of body weight resulted in the increase in sulfate and taurine (plus hypotaurine) excretion in the 24-h urine, which corresponded to 45.3 and 29.3%, respectively, ofl-cysteine administered. Subcutaneous injection of (aminooxy)acetate, a potent inhibitor of transaminases, together withl-cysteine halved the sulfate excretion and doubled the taurine excretion. In vitro sulfate formation froml-cysteine and froml-cysteinesulfinate in rat liver mitochondria was inhibited by (aminooxy)-acetate. The sulfate-forming activity of liver mitochondria obtained from rats injected with (aminooxy) acetate was also inhibited. These results indicate that the transamination reaction is crucial in sulfate formation and in the regulation of sulfur metabolism. Sulfur equilibrium in mammals was discussed.     

Cystathionine γ-lyase contributes to selenomethionine detoxification and cytosolic glutathione peroxidase biosynthesis in mouse liver

We earlier found that seleno-l-methionine (L-SeMet) as a food source of selenium (Se) is directly converted to methylselenol (CH₃SeH), α-ketobutyrate, and ammonia by the mouse hepatic cystathionine γ-lyase. The purpose of this study was to clarify the biological role of cystathionine γ-lyase in Se detoxification and cytosolic glutathione peroxidase (cGPx) biosynthesis because another metabolic pathway to CH₃SeH via seleno-l-cystathionine and seleno-l-cysteine (l-SeCyH) from l-SeMet has been shown by several enzymatic reactions. When mice were treated with either toxic doses of l-SeMet or a Se-deficient diet, the cystathionine γ-lyase activity for l-SeMet was invariable, suggesting that this enzyme was effective in both detoxification and biotransformation of Se. Concerning Se biotransformation into cGPx, production of H₂Se as the possible precursor was not observed by the in vitro reaction of the liver cytosol with CH₃SeH. When l-SeMet was administered at the nutritional dose to mice fed a Se-deficient diet, levels of both cGPx mRNA and cGPx protein were significantly restored. This recovery was not comparatively suppressed by coadministration of periodate-oxidized adenosine, an inhibitor of S-adenosylhomo-cystenase, where the conversion of l-SeMet to l-SeCyH is inhibited. However, the recovery was strongly suppressed when propargylglycine, an inhibitor of cystathioine γ-lyase that catalyzes the α,γ-elimination reaction of both l-SeMet and seleno-l-cystathionine, was treated. These results suggest that cystathionine γ-lyase is a notable enzyme, in SeMet metabolism and that CH₃SeH produced by the enzymatic reaction is utilized for cGPx biosynthesis.     

New ubiquitous translocators: amino acid export by<Emphasis Type="Italic"> Corynebacterium glutamicum</Emphasis> and<Emphasis Type="Italic"> Escherichia coli</Emphasis>

Molecular access to amino acid excretion by Corynebacterium glutamicum and Escherichia coli led to the identification of structurally novel carriers and novel carrier functions. The exporters LysE, RhtB, ThrE and BrnFE each represent the protoype of new transporter families, which are in part distributed throughout all of the kingdoms of life. LysE of C. glutamicum catalytes the export of basic amino acids. The expression of the carrier gene is regulated by the cell-internal concentration of basic amino acids. This serves, for example, to maintain homoeostasis if an excess of l-lysine or l-arginine inside the cell should arise during growth on complex media. RhtB is one of five paralogous systems in E. coli, of which at least two are relevant for l-threonine production. A third system is relevant for l-cysteine production. It is speculated that the physiological function of these paralogues is related to quorum sensing. ThrE of C. glutamicum exports l-threonine and l-serine. However, a ThrE domain with a putative hydrolytic function points to an as yet unknown role of this exporter. BrnFE in C. glutamicum is a two-component permease exporting branched-chained amino acids from the cell, and an orthologue in B. subtilis exports 4-azaleucine.     

Evaluation ofl-lactic acid production in batch, fed-batch, and continuous cultures ofRhizopus sp. MK-96-1196 using an airlift bioreactor

Various processes which producel-lactic acid using ammonia-tolerant mutant strain,Rhizopus sp. MK-96-1196, in a 3 L airlift bioreactor were evaluated. When the fed-batch culture was carried out by keeping the glucose concentration at 30 g/l, more than 140 g/l ofl-lactic acid was produced with a product yield of 83%. In the case of the batch culture with 200 g/l of initial glucose concentration, 121 g/L ofl-lactic acid was obtained but the low product yield based on the amount of glucose consumed. In the case of a continuous culture, 1.5 g/l/h of the volumetric productivity with a product yield of 71% was achieved at dilution rate of 0.024 h⁻¹. Basis on these results three processes were evaluated by simple variable cost estimation including carbon source, steam, and waste treatment costs. The total variable costs of the fed-batch and continuous cultures were 88% and 140%, respectively, compared to that of batch culture. The fed-batch culture with highl-lactic acid concentration and high product yield decreased variable costs, and was the best-suited for the industrial production ofl-lactic acid.     

The metabolism of selenite and selenomethionine in mouse fibroblasts grown in tissue culture

Recent reports have provided evidence that selenium is an essential growth factor for cells grown in tissue culture. The aim of the work reported in this paper was to evaluate mouse fibroblasts as a model for the study of selenium metabolism in mammalian cells. The results showed that transformed mouse lung fibroblasts grown in media containing 9.1% bovine serum did not show a growth response to added selenium as selenite over the range of 10–1000 ng/mL. Uptake of selenium by cells was a direct function of the selenium concentration in the medium. The rate of uptake varied with the time of exposure of the cells to the selenium, and to the form of selenium in the medium. Experiments using radioactive selenium showed that⁷⁵Se from selenite was rapidly absorbed into the cell wall, but slowly incorporated into the soluble protein fraction.⁷⁵Se from selenomethionine was more slowly absorbed into the cells, but once inside, it became rapidly incorporated into soluble cytoplasmic proteins. Cell fractionation and gel filtration procedures established that⁷⁵Se from selenite was rapidly incorporated into glutathione peroxidase (GSHpx), whereas⁷⁵Se from selenomethionine was initially incorporated into a wide spectrum of proteins and only after a longer period did the⁷⁵Se peak become associated with GSHpx. These findings suggest fundamental differences exist in the manner in which mammalian cells initially absorb and metabolize different selenium compounds.     

Uptake of selenite,selenomethionine and selenate by brush border membrane vesicles isolated from rat small intestine

The uptake of selenite, selenate and selenomethionine (SeMet) was performed with brush border membrane vesicles (BBMV) prepared from rats fed selenium-deficient and supplemented diets. At equilibrium (60 min), the uptake of ⁷⁵Se from [⁷⁵Se]selenite ranged from 16.5 to 18.9 nmol mg^-1 protein. There was a curvilinear relationship in the uptake of selenite over a concentration range of 10–1000 m. About 2 nmol mg^-1 protein was obtained with selenomethionine (SeMet) which occurred between 90 and 180 s. In contrast to selenite, there was a linear relationship in the initial uptake of SeMet over a concentration range of 10–1000 m. The uptake of selenate was approximately 50-fold lower than selenite, reaching 350 pmol mg^-1 protein. Dietary selenium level had no effect on the rate of ⁷⁵Se accumulation by BBMV. Dramatic differences are found in the uptake and binding of selenium by BBMV incubated with different selenocompounds.     

Modification of l-phenylalanine ammonia-lyase in soybean cell suspension cultures by 2-aminooxyacetate and l-2-aminooxy-3-phenylpropionate

Suspension-cultured cells of soybean (Glycine max (L.) Merr. cv. Kanrich) produce large amounts of phenylalanine ammonia-lyase (PAL; EC 4.3.1.5), the first enzyme of phenylpropanoid metabolism, during growth. 2-Aminooxyacetic acid (AOA) and l-2-aminooxy-3-phenylpropionic acid (l-AOPP) inhibit the enzyme competitively in vitro and have been used for in vivo studies. The amount of extractable enzyme in the cells and their utilization of NO ₃ ^– and NH ₃ ⁺ are reduced upon the addition of AOA. When AOA was added at various times during growth, the appearance of additional enzyme activity was prevented but enzyme already formed was not inhibited. No evidence was obtained for the presence of an inhibitor in the extracts and AOA inhibition in vitro was readily reversible. It is conculded that AOA acts to inhibit the formation of PAL in suspension-cultured soy bean cells. In vitro inhibition of soybean PAL by l-AOPP could not be reversed; in contrast, the inhibition of maize (Zea mays L.) PAL was readily reversible. Added l-AOPP, which was rapidly taken up by the soybean cells, prevented the large increase in enzyme activity. Although PAL activity was blocked in the cultures, no appreciable increase in phenylalanine content could be detected in cell extracts. The response of soybean cell suspensions to l-AOPP addition thus differs from that of other tissues which in presence of l-AOPP show an increase in PAL activity and an accumulation of phenylalanine.Abbreviations AOA 2-aminooxyacetic acid - l-AOPP l-2-aminoxy-3-phenylpropionic acid - PAL l-phenylalanine ammonialyase (EC4.3.1.5)     

Incorporation of two18O atoms into a peptide during isoaspartyl repair reveals repeated passage through a succinimide intermediate

To study the mechanism of protein carboxyl methyltransferase-driven repair of age-damaged sites in polypeptides, a modell-isoaspartyl peptide,l-isotetragastrin, was enzymatically repaired to normall-tetragastrin in the presence of¹⁸O-enriched water. By this design, the enrichment of¹⁸O atoms in the peptide would reflect the number of passages through a hydrolyzable succinimide intermediate during formation of the repaired product. Mass determinations by FAB mass spectrometry revealed repaired peptide with two¹⁸O atoms incorporated, demonstrating that more than a single cycle of methylation and demethylation is necessary to ensure stoichiometric repair.Abbreviations HPLC high-pressure liquid chromatography - FAB fast atom bombardment - TFA trifluoroacetic acid - PCM proteind-aspartyl/L-isoaspartyl carboxyl methyltransfer-ase - l-Normal [l-Asp³]tetragastrin - l-Iso [L-isoAsp³]tetragastrin - d-Normal [d-Asp³]tetragastrin - d-Iso [d-isoAsp³]tetragastrin