Effect of saturated, omega-3 and omega-6 polyunsaturated fatty acids on myocardial infarction

Dietary fatty acids have cholesterol lowering, antiatherogenic, and antiarrhythmic properties that decrease the risk of myocardial infarction (MI). This study was designed to study the effects of various oils rich in either polyunsaturated (omega-3 or omega-6) fatty acids (PUFA) or saturated fatty acids (SFA) on the severity of experimentally induced MI. Male albino Sprague-Dawley rats (100-150 g; n = 20) were fed diets enriched with fish oil (omega-3 PUFA), peanut oil (omega-6 PUFA), or coconut oil (SFA) for 60 days. Experimental MI was induced with isoproterenol. Mortality rates; serum enzymes aspartate amino transferase; alanine amino transferase; creatine phosphokinase (CPK); lipid profiles in serum, myocardium, and aorta; peroxide levels in heart and aorta; activities of catalase and superoxide dismutase; and levels of glutathione were measured. The results demonstrated that mortality rate, CPK levels, myocardial lipid peroxides, and glutathione levels were decreased in the omega-3 PUFA treated group. Maximum increase in parameters indicative of myocardial damage was seen in the coconut oil group. These findings suggest that dietary omega-3 PUFA offers maximum protection in experimentally induced MI in comparison to omega-6 PUFA and SFA enriched diets. SFA was found to have the least protective effect.     

Intrauterine Malnutrition and the Brain: Effects on Enzymes and Free Amino Acids Related to Glutamate Metabolism

Abstract: The effect of feeding pregnant rats with wheat and Bengal gram (black chick pea) diets during the later part of pregnancy on brain growth, enzymes, and free amino acids of glutamate metabolism in 1-day-old rats was investigated. These diets did not induce growth dissociation, and the body and brain weights were equally affected. The concentrations of DNA, RNA, protein, and free α-amino nitrogen in brain decreased significantly and the activities of glutamine synthetase, glutamine transferase, glutaminase 1, glutaminase 11, and glutamate decarboxylase and the concentrations of free amino acids, glutamic acid, glutamine, alanine, and GABA were also decreased. The concentration of aspartic acid, however, was increased. Wheat and Bengal gram diets fortified with lysine and with methionine, cystine, and tryptophan respectively showed various beneficial effects on the changes observed in the brain. A 20% casein diet induced higher body and brain weights and better brain protein and free α-amino nitrogen concentrations than those observed on a 10% casein diet.     

Effect of diethylcarbamazine on acetylcholine and gamma amino butyric acid in Setaria digitata.

In vitro studies on the effect of neurotransmitter amino acids and amines on the motility of S. digitata showed that acetylcholine (Ach) had a stimulatory and gama amino butyric acid (GABA) an inhibitory effect on the parasite. When the worms were incubated in different concentrations of diethylcarbamazine there was a significant dose related increase in the level of Ach, and the level of GABA remained unchanged. Inhibition of acetylcholine esterase activity by diethylcarbamazine caused the accumulation of Ach in the synapses resulting in receptor desensitization and after a momentary stimulation causes paralysis of the parasite.     

Effect of 24-hour starvation on amino acid pool composition and enzyme activities of rat brown adipose tissue

The effect of 24-hr starvation on the amino acid pool composition and its concentration ratios with respect to blood and plasma as well as the activities of alanine, aspartate and branched chain amino acid transaminases, glutamate dehydrogenase, glutamine synthetase and adenylate deaminase have been studied in rat brown adipose tissue. Starvation induced a considerable decrease of pool amino acid concentration. Alanine and taurine were the amino acids in which the decrease was more marked. Small changes were observed in the activities of the enzymes studied, with decreases only in glutamate dehydrogenase and adenylate deaminase. These changes agree with a decrease in amino acid utilization in this tissue induced by starvation.     

The biosynthesis of transfer RNA in insects. I. Increase of amino acid acceptor activity of specific tRNA's utilized for silk protein biosynthesis in the silk gland of Bombyx mori.

1) To detect the quantitative changes of amino acid acceptor activity of tRNA's from the posterior and middle silk glands of Bombyx mori at various ages, a relatively simple and rapid method was established using a mixture of radioactive amino acids in Chlorella hydrolysate. 2) The acceptor activities of silk gland tRNA for 15 amino acids tested seemed to be almost on the same level at the end of the 4th moult stage. During the 5th instar, however, characteristic increases were observed in glycine, alanine, and serine acceptor activities in both silk glands. 3) In the posterior silk gland, which produces fibroin, the acceptor activities for glycine and alanine increased more than that for serine. In the middle silk gland, which produces sericine, the acceptor activity for serine increased more than those for glycine and alanine. 4) In the light of observations on the increase of corresponding aminoacyl-tRNA synthetase activities in the silk glands, a functional adaptation of tRNA synthesis in the tissue is discussed.     

Biochemical alterations induced by a new phosphorothionate (RPR-II) in tissues of male and female rats

This study was conducted to investigate the effect of a new phosphorothionate, the methyl ester of 2-butenoic acid-3-diethoxy phosphinothioyl (RPR-II) on membrane bound target enzymes aspartate amino transferase (ASAT), alanine amino transferase (ALAT) and RBC acetylcholinesterase (AChE) in different tissues of male and female albino wistar rats when treated orally with 0.014 (low), 0.028 (medium) and 0.042 (high) mg/kg daily for a period of 90 days. Repeated administration of RPR-II caused significant increase of ASAT and ALAT enzymes in serum, liver and kidney and significant decrease was recorded in lung in both male and female rats when measured after 45 and 90 days of treatment. This compound also caused significant inhibition of RBC AChE indicating its effect on nerve synapsis. Females were more susceptible than males with regard to ASAT and ALAT levels in serum and liver and also in kidney ASAT, whereas reverse trend was recorded in lung ALAT, suggesting sexual dimorphism in the treated rats. These studies also indicated that the levels of these affected enzymes were recovered to normal conditions after 28 days of post treatment (withdrawal study). Positive correlation was observed with regard to these enzymes between serum, liver and kidney, whereas in case of serum and lung a negative correlation was recorded. These enzymes profile elucidates lung necrosis whereas in other tissues the level of enzymes increased showing an adaptive mechanism due to the chemical stress.     

Sub-lethal effect of synthetic pyrethroid pesticide on metabolic enzymes and protein profile of non-target Zebra fish,Danio rerio

Extensive application of pesticide in agricultural field affects the enzymatic activity of non-target animals, including fishes. In this study, the impact of sublethal concentration of fenvalerate on marker enzymes of freshwater Zebra fish was evaluated. Pesticide-induced stress can specifically affect non target fishes, through elevated level of reactive oxygen species which is responsible for biochemical, cell metabolism and physiological activities. The oxidative stress mediated by fenvalerate at sub lethal concentrations after 28 days of exposure of Zebra fish. Following 28 days of exposure of pesticide, catalase, superoxide dismutase, aspartate amino transferases, alanine amino transferase, alkaline phosphatase and acid phosphatase were assessed. Results revealed reduction of superoxide dismutase activity after 28 days of exposure in sub lethal concentration of fenvalerate in liver and gills. In liver, catalase activity was found to be less in fenvalerate exposed fish than control fish. In liver, increase of 75.75% aspartate amino transferase and 38% increase in alanine amino transferase in gills. SGPT activity was relatively higher than SGOT suggests more contribution of phyruvalate than oxaloacetate formation. Fenvalerate induced changes in acid phosphatase and alkaline phosphatase activity in the liver and gills of Zebra fish after four weeks of exposure. Fenvalerate induced expression of various stress proteins in gill, liver, followed by muscle. Some proteins lost its intensity due to fenvalerate toxicity. Result revealed that enzyme assays and SDS-PAGE analysis for protein subunits determination is relevant tool to monitor stress in freshwater ecosystem. The findings suggest that in monitoring fenvalerate toxicity programme, enzyme activities can be potent diagnostic tool for fenvalerate induced toxicity.     

Effect of caffeine-coconut products interactions on induction of microsomal drug-metabolizing enzymes in Wistar Albino rats.

Effect of caffeine-coconut products interactions on induction of drug-metabolizing enzyme in wistar albino rats was studied. Twenty rats were randomly divided into four groups: The control group (1) received via oral route a placebo (4.0ml of distilled water). Groups 2 to 4 were treated for a 14-day period with 50 mg/kg body weight of caffeine, 50 mg/kg body weight of caffeine and 50 mg/kg body weight of coconut water, and 50 mg/kg body weight of caffeine and 50 mg/kg body weight of coconut milk in 4.0ml of the vehicle via gastric intubation respectively. One day after the final exposure, the animals were anaestheticized by inhalation of an overdose of chloroform. The blood of each rat was collected by cardiac puncture while the liver of each rat was harvested and processed to examine several biochemical parameters, i.e., total protein and RNA levels, protein/RNA ratios, and activities of alanine and aspartate amino transferase (ALT and AST, respectively). The results showed that while ingestion of coconut milk and coconut water increased the values of protein and protein/RNA ratios, it decreased alanine and aspartate amino transferase (ALT and AST) activities. These effects, in turn, enhanced the induction of the metabolizing enzymes and a resultant faster clearance and elimination of the caffeine from the body, there by reducing the toxic effect on the liver.     

Catabolism of amino acids in livers from cafeteria-fed rats

Most studies using a hypercaloric diet to induce obesity have focused on the metabolism of fat and carbohydrates. Less concern has been given to the metabolism of amino acids, despite evidence of modifications in nitrogen metabolism during obesity. The aim of this study was to evaluate amino acid metabolism in livers from cafeteria diet-induced obese rats. Blood parameters were analysed, and histological sections of livers were stained with Sudan III. The enzymatic activities of some enzymes were determined in liver homogenates. Gluconeogenesis, ureagenesis, and oxygen consumption were evaluated in rat livers perfused with glutamine, alanine, or ammonium chloride. Compared to control rats, cafeteria-fed rats demonstrated higher levels of triacylglycerol and glucose in the blood and greater accumulation of fat in livers. Gluconeogenesis and urea production in livers perfused with glutamine and alanine at higher concentrations showed a substantial reduction in cafeteria-fed rats. However, no significant difference was observed among groups perfused with ammonium chloride. The activities of the enzymes alanine aminotransferase, glutaminase, and aspartate aminotransferase in the livers were reduced in cafeteria-fed rats. Taken together, these data are consistent with the hypothesis that livers from cafeteria diet-induced obese rats exhibit a limitation in their maximal capacity to metabolise glutamine and alanine to glucose, ammonia, and urea, not because of an impairment in gluconeogenesis and/or ureagenesis, but rather due to a depression in the activities of enzymes that catalyse the initial steps of amino acid metabolism.     

Functional significance of the activities of glutaminase and ornithine-ω-aminotransferase in rat brain

The activities of glutaminase, glutamine synthetase (GS), arginase and ornithine amino transferase (orn-T) were studied in three regions of rat brain in heightened neuronal activity by producing convulsions by leptazol. These enzymes were studied in preconvulsive, convulsive and postconvulsive phases. Glutaminase activity was found to increase in all the three regions in the preconvulsive and convulsive phases. GS activity decreased in the preconvulsive phase but rose gradually to the control level when the postconvulsive phase was reached. The activity of arginase decreased in the cerebellum in preconvulsive and convulsive phases. However, in the cerebral cortex there was a decrease in the activity of this enzyme only in the convulsive phase. The results suggest that glutamine acts more likely as a precursor for the neurotransmitter pool of glutamate, while ornithine serves more as a precursor for the neurotransmitter pool of GABA.     

Influence of Forced-Feeding of Individual Essential Amino Acids on the Activities of All Urea Cycle Enzymes in Rat Liver

The response of all urea cycle enzymes, i.e. carbamyl phosphate synthetase, ornithine transcarbamylase, argininosuccinate synthetase, argininosuccinase and arginase, has been determined in the liver of protein-depleted young rats which were forcibly fed individual essential l-amino acids along with or without caloric sources. The feeding of individual amino acids produced different effects on the level of each of the enzymes, and generally the response of carbamyl phosphate synthetase, argininosuccinate synthetase, argininosuccinase and arginase was greater than that of ornithine transcarbamylase. Of all the essential amino acids tested tryptophan was most effective on the elevation of these enzymes. Several amino acids, phenylalanine, leucine, threonine and methionine had also somewhat effect on the increase of some enzyme activities, but other amino acids had little or no effect on the response of these enzymes. On the contrary, histidine and lysine caused appreciable decrease of arginase activity. These enzyme activities in rats fed tryptophan alone were extremely higher than those of animals fed it along with caloric sources. The response level of the enzymes was essentially dependent on the tryptophan content in diets under the proper conditions. Tryptophan feeding did not produce any increase in both levels of urine and plasma urea despite the elevation of all urea cycle enzyme activities occured.     

Salmonella typhimurium LT-2 mutants with altered glutamine synthetase levels and amino acid uptake activities.

To determine whether Salmonella typhimurium has a nitrogen control response, we have examined the regulation of nitrogen utilization in two mutants with fivefold and threefold elevations in their glutamine synthetase activities. The mutants do not require glutamine for growth on glucose--ammonia medium but do have altered growth on other nitrogen sources. They grow better than an isogenic control on media containing arginine or asparate, but more slowly with proline or alanine as nitrogen sources. This unusual growth pattern is not due to altered regulation of the ammonia assimilatory enzymes, glutamate dehydrogenase and glutamate synthase, or to changes in the enzymes for aspartate degradation. However, transport for several amino acids may be affected. Measurement of amino acid uptake show that the mutants with high glutamine synthetase levels have increased rates for glutamine, arginine, aspartate, and lysine, but a decreased rate for proline. The relationship between glutamine synthetase levels and uptake was examined in two mutants with reduced, rather than increased, glutamine synthetase production. The uptake rates for glutamine and lysine were lower in these two glutamine auxotrophs than in the Gln+ controls. These results show a correlation between the glutamine synthetase levels and the uptake rates for several amino acids. In addition, the pleiotropic growth of the mutants with elevated glutamine synthetase activities suggests that a nitrogen control response exists for S. typhimurium and that it can be altered by mutations affecting glutamine synthetase regulation.     

Alanine and glutamine synthesis and release from skeletal muscle. II. The precursor role of amino acids in alanine and glutamine synthesis.

The synthesis and release of alanine and glutamine have been studied in the intact rat epitrochlaris skeletal muscle preparation. Aspartate, cysteine, leucine, valine, methionine, isoleucine, serine, theronine, and glycine increased significantly the formation and release of alanine from muscle. Cysteine, leucine, valine, methionine, isoleucine, tyrosine, lysine, and phenylalanine increased the rate of glutamine synthesis. Only ornithine, arginine, and tryptophan were without effect on the synthesis of either alanine or glutamine. Half-maximal stimulation of alanine and glutamine formation by added amino acids was observed with concentrations ranging between 0.5 and 1.0 mM. Increases in alanine and glutamine formation were not accompanied by changes in pyruvate production or glucose uptake. The progressive decline in alanine and glutamine synthesis noted on prolonged incubation was prevented by the addition of amino acids to the incubation medium. Stimulation of alanine synthesis by added amino acids was unaffected by inhibition of glycolysis with iodoacetate. Inhibition of alanine aminotransferase with aminooxyacetate significantly decreased alanine formation. Pyruvate and ammonium chloride did not increase further the rate of either alanine or glutamine formation above that produced by added amino acids. These data indicate that most amino acids are precursors for alanine and glutamine synthesis in skeletal muscle. A general mechanism is presented for the de novo formation of alanine from amino acids in skeletal muscle, and the importance of proteolysis for the supply of amino acid precursors for alanine and glutamine synthesis is discussed.     

Effects of Dietary Amino Acids on Brain Amino Acids and Transmitter Amines in Rats with a Portacaval Shunt

The etiologic relationship between disturbances in metabolism of amino acids and amines and hepatic coma was investigated by examining the effects of diets containing various mixtures of amino acids on brain amine metabolism in rats with a portacaval shunt, using a method for simultaneous analysis of amino acids and amines. Rats with a portacaval shunt were fed on four different amino acid compositions with increased amounts of various amino acids suspected to be etiologically related to hepatic coma, such as methionine, phenylalanine, tyrosine, and tryptophan. The animals were killed 4 weeks after operation. During the experimental period, these animals did not become comatose, but exhibited various behavioral abnormalities. Marked increase in the plasma and brain levels of the augmented amino acids, especially methionine and tyrosine, were observed in rats with a portacaval shunt. Brain noradrenaline, dopamine, and serotonin levels were significantly decreased when the brain tyrosine level was increased. These results indicate that in rats with a portacaval shunt the dietary levels of amino acids greatly influence the brain levels of both amino acids and transmitter amines.     

Mice Transgenic for Copper/Zinc Superoxide Dismutase Exhibit Increased Markers of Biogenic Amine Function

Abstract: Mice that are transgenic for and overexpress human copper/zinc superoxide dismutase were used to investigate the role of this enzyme in the pathophysiology of Down's syndrome (DS; trisomy 21). Previous studies have indicated that overexpression of copper/zinc superoxide dismutase leads to deficits in peripheral markers of neurochemical function, which are consistent with the hypothesis that this enzyme plays a role in the pathophysiology of DS. We have measured concentrations of amino acids and biogenic amines (catecholamines, serotonin, and their metabolites), uptake of biogenic amines into crude synaptosomes, and activities of synthetic enzymes in both control mice and mice transgenic for human copper/zinc superoxide dismutase that overexpress it by two- to fivefold above control values. We find that these transgenic mice exhibit higher concentrations of the biogenic amines in specific brain regions, with little or no change in amino acid concentration. Furthermore, tyrosine hydroxylase activity is increased in the striatum of the transgenics, whereas glutamic acid decarboxylase and choline acetyltransferase activities are unchanged in all but one brain region. These findings indicate that over-expression of copper/zinc superoxide dismutase, by itself, is not sufficient to cause the synaptic neurochemical deficits reported in DS.     

The effects of drought stress on free amino acid accumulation and protein synthesis in Brassica napus

Changes in the concentrations of free amino acids and specific organic acids were analysed during the induction of drought stress in Brassica napus . Most of the amino acids showed a characteristic linear increase with the induction of drought stress in Brassica leaves, increasing an average of 5.9-fold over control levels, followed by a reduction in concentration upon rehydration of the plants. Pyruvate concentrations doubled after 4 days of drought stress whereas 2-oxoglutarate concentrations remained relatively constant. The activities of two of the enzymes involved in amino acid biosynthesis, alanine aminotransferase (EC 2.6.1.2) and aspartate aminotransferase (EC 2.6.1.1), were also measured. Neither enzyme showed any increase in activity, except when the plants were rehydrated. This suggests that the increase in both alanine and aspartate levels results from the increase in their precursors pyruvate and glutamate and may not require increased enzyme activity. The effect of drought stress upon changes in protein synthesis was analysed by sodium dodecyl sulfate polyacrylamide gel electrophoresis. We found that there was an overall decrease in protein synthesis with the induction of drought stress, followed by a resumption of synthesis upon rehydration. In addition, the synthesis of a number of specific polypeptides was found to decrease upon water loss in the leaves.     

Dietary supplements of mixtures of indispensable amino acids lacking threonine, phenylalanine or histidine increase the activity of hepatic threonine dehydrogenase, phenylalanine hydroxylase or histidase, respectively, and prevent growth depressions in chicks caused by dietary excesses of threonine, phenylalanine, or histidine*

Experiments were carried out to determine whether the addition of a mixture of indispensable amino acids (IAA) lacking in threonine, phenylalanine or histidine, respectively, to a nutritionally complete diet would increase the hepatic activities of the rate-limiting enzymes for catabolism of threonine, phenylalanine or histidine and prevent the adverse effects of the amino acid on growth when the dietary level of the amino acid is excessive. Week old Leghorn chicks were fed semi-purified diets containing 19% crude protein to which were added no IAA supplement or 10% crude protein from an IAA mix and 5 graded levels of either L-threonine, L-phenylalanine or L-histidine in a 2 x 5 factorial arrangement of treatments. Each amino acid was investigated in a separate experiment involving four replicate pens (seven chicks each) per diet. Weight gains and feed consumptions were determined on the fourteenth day of each experiment. The groups receiving no excess, and 1.0% or 2.0% excesses of amino acids were sampled on the fifteenth day for enzyme activities and plasma amino acid concentrations. Weight gain and/or feed consumption were lower, and plasma concentrations of threonine, phenylalanine and histidine were higher, in chicks receiving 1.5 to 2.0% dietary additions of threonine, phenylalanine, and histidine, respectively, than in chicks that did not receive these amino acids. Chicks that received the amino acids in diets that also contained the IAA supplement had better growth and feed consumption, lower plasma concentrations of threonine, phenylalanine or histidine, higher plasma concentrations of other indispensable amino acids, and higher activities of threonine dehydrogenase, phenylalanine hydroxylase, and histidase than chicks receiving excess amino acids in the absence of IAA supplements. We conclude that the dietary level of protein, not the dietary level of individual amino acids, is the primary determinant of the activity of amino acid degrading enzymes in liver. The increased activity of these enzymes may be the mechanism by which dietary protein alleviates the adverse effects of excessive levels of individual amino acids.     

Subcellular distribution of enzymes of transmethylation and transsulphuration in rat brain.

—Certain of the sulphur containing amino acids have been associated with synaptic transmission in the central nervous system. The enzymes involved in the synthesis of these putative neurotransmitter or modulator compounds have a different subcellular distribution in rat brain from those enzymes that catalyse the synthesis of other compounds in this pathway. Methionine adenosyltransferase and 5-methyltetrahydrofolate-homocysteine methyltransferase catalyse reactions that maintain the methylation functions of the pathway and are found in soluble fractions. Cystathionine β-synthase, cystathionase, cysteine dioxygenase and cysteine sulphinic acid decarboxylase catalyse the synthesis of those sulphur-containing amino acids implicated in neurotransmitter functions and these enzymes have both paniculate and soluble components. Serine hydroxymethyltransferase, which also has a particulate fraction in brain, is responsible for the synthesis of the neurotransmitter glycine, in addition to its role in the methionine-related metabolism of folate.     

晶体氨基酸替代鱼粉蛋白对半滑舌鳎稚鱼消化酶和代谢酶活力的影响

为研究人工微颗粒饲料中晶体氨基酸替代鱼粉蛋白对半滑舌鳎（Cynoglossus semilaevis Gnther）稚鱼消化酶和代谢酶活力的影响, 以晶体氨基酸混合物分别替代0%、25%、50%、75%和100%鱼粉蛋白（0%CAA、25%CAA、50%CAA、75%CAA和100%CAA）, 在25%替代水平设计棕榈酸甘油酯包被晶体氨基酸混合物组（C-25%CAA）, 配制实验微颗粒饲料。每种微颗粒饲料随机投喂三组实验鱼初始体重（0.0940.02） g, 35日龄, 每组实验鱼放养150尾, 养殖周期28d。研究结果表明, 在不包膜条件下, 各处理组的胰蛋白酶活力随替代水平的升高显著下降（P0.05）, 且包膜处理组（C-25%CAA）与全鱼粉组无显著差异（P0.05）。肠段胰蛋白酶活力与胰段胰蛋白酶活力比值随氨基酸替代水平的升高显著下降（P0.05）, 鱼粉组显著高于75%和100%处理组（P0.05）, 但与25%处理组、包膜处理组（C-25%CAA）和50%处理组无显著差异（P0.05）。各处理组淀粉酶活力随替代水平的升高显著上升（P0.05）。亮氨酸氨肽酶（LA）和碱性磷酸酶（AP）活力（肠段与刷状缘）均随替代水平的升高显著下降（P0.05）, 包膜处理组（C-25%CAA）与全鱼粉组无显著差异（P0.05）。谷丙转氨酶（GPT/ALT）和谷草转氨酶（GOT/AST）活力随替代水平的升高显著上升（P0.05）, 50%、75%和100%处理组显著高于鱼粉组、25%处理组和包膜处理组（C-25%CAA）。研究结果显示, 饲料中晶体氨基酸显著影响了半滑舌鳎稚鱼的消化酶和代谢酶活力, 而且在25%的替代水平下, 与未包膜组相比, 包膜处理组能显著促进半滑舌鳎稚鱼消化系统的发育。       

ALTERATION OF GABA SYSTEM AND PURKINJE CELLS IN RAT CEREBELLUM BY THE CONVULSANT 3-MERCAPTOPROPIONIC ACID

Abstract— The effect of the convulsant, 3-mercaptopropionic acid (MP) on the content of free amino acids and on the activity of some enzymes related to their metabolism was studied in the rat cerebellum. A decrease in the activity of glutamate decarboxylase (EC 4.1.1.15) and in the level of GABA was found; at the same time, the activity of GABA-aminotransferase (EC 2.6.1.19) was increased. These changes coincided with a profound alteration of the morphology of the Purkinje cells which was related to the dose of MP. These findings, plus some changes in the content of other free amino acids and the activities of related enzymes, suggest that 3-mercaptopropionic acid induces in the cerebellum an imbalance among the amino acids involved in the excitation-inhibition mechanisms.