Abstract: A taurine/beta-alanine transporter was cloned from a mouse brain cDNA library by screening with a partial cDNA probe of the glycine transporter at low stringency. The deduced amino acid sequence predicts 590 amino acids with typical characteristics of the sodium-dependent neurotransmitter transporters such as sequence homology and membrane topography. However, the calculated isoelectric point of the taurine/beta-alanine transporter is more acidic (pI = 5.98) than those (pI > 8.0) of other cloned neurotransmitter transporters. Xenopus oocytes injected with cRNA of the cloned transporter expressed uptake activities with Km = 4.5 microM for taurine and Km = 56 microM for beta-alanine. Northern hybridization showed a single transcript of 7.5 kilobases that was highly enriched in kidney and distributed evenly in various parts of the brain. In situ hybridization showed the mRNA of the taurine/beta-alanine transporter to be localized in the corpus callosum, striatum, and anterior commisure. Specific localization of the taurine/beta-alanine transporter in mouse brain suggests a potential function for taurine and beta-alanine as neurotransmitters.

Abstract: Large losses of amino acids by diffusion were previously observed in Madin-Darby canine kidney (MDCK) cells during volume regulation. Also, an outward rectifying anion channel was activated. Because this channel was not selective among anions, it was suggested that it could be permeable to amino acids. Its permeability to aspartate, glutamate, and taurine was studied using the patch-clamp technique in the inside-out configuration. Solutions containing 500 mM aspartate or glutamate were used on the cytoplasmic side of excised patches to detect single-channel currents carried by these anions. Permeability ratios were estimated in two different ways: 1) from the shift in reversal potential of current-voltage curves after anion replacement in the bath solution and 2) from comparisons of amplitudes of single-channel currents carried by tested anions and chloride, respectively. The values of aspartate-to-chloride and glutamate-to-chloride permeability ratios obtained with both methods were quite consistent and were of the order of 0.2 for both amino acids. Taurine in solutions at physiological pH 7.3 is a zwitterionic molecule and bears no net charge. To detect single-channel currents carried by taurine, solutions containing 500 mM taurine at pH 8.2 were used in inside-out experiments. Under these conditions 120 mM of negatively charged taurine was present in the solutions bathing the cytoplasmic side of excised patches. The permeability ratio estimated from the shift in reversal potential was 0.75. These results showed that some of the organic compounds released by cells during regulatory volume decrease could diffuse through this outwardly rectifying anionic channel.

Abstract: We used proton nuclear magnetic resonance spectroscopy in this preliminary study of perchloric acid extracts of 12 Alzheimer's disease (AD) and five control brain samples to measure the relative levels of taurine, aspartate, glutamine, glutamate, gamma-aminobutyric acid (GABA), and the putative neuronal marker, N-acetyl-L-aspartate (NAA). We found no significant changes in taurine, aspartate, or glutamine. NAA was lower in AD compared with control, and this decrease correlated with the number of senile plaques and neurofibrillary tangles in adjacent tissue sections. GABA levels also were lower in AD brain. Glutamate levels were greater in AD than control and showed a close, inverse correlation with NAA levels. These findings suggest that the decrease in NAA reflects neuronal loss and that remaining neurons could be exposed to a relative excess of glutamate and a relative lack of GABA. If present in the neurotransmitter pool, this imbalance could result in neurotoxic cell damage. This hypothesis is further supported by in vitro and in vivo phosphorus 31 nuclear magnetic resonance findings.

Abstract: We compared postprandial satiety and plasma amino acid, insulin, and glucose concentrations in six lean male subjects after the ingestion of three types of protein (beef, chicken and fish). Satiety was greater after the fish meal (P less than 0.01). The observed difference in satiety could be correlated with two of the putative satiety signals measured in this study: 1) serotoninergic activity, due to differences observed in the postprandial tryptophan to large neutral amino acid ratio; and 2) digestibility, reflected in the significantly (P less than 0.05) longer time it took for the plasma amino acid concentrations to peak after the fish meal. Correlations between dietary and plasma amino acid concentrations were determined and good correlations (r = 0.90) were observed for essential amino acids other than lysine and tryptophan. There were no differences in insulin or glucose concentrations in subjects after consuming each of the three meals. Whether other differences that we observed, such as increased concentrations of taurine and methionine following the fish meal, had any effect on satiety or were of biological significance is not known.

Abstract: The effect of cysteine concentration and cysteine source [cysteine, methionine or 2-oxo-thiazolidine-4-carboxylate (OTC)] on the metabolism of [35S]cysteine was studied in isolated rat hepatocytes. Production of each of the major metabolites of cysteine (glutathione, sulfate, taurine) increased as cysteine or methionine, but not OTC, concentration in the medium was increased. At equimolar exogenous substrate concentrations, cysteine availability to hepatocytes was greater from exogenous cysteine than from methionine, and that from methionine was greater than from OTC. The partitioning of cysteine, or the percentage of total metabolism resulting in production of each of the major metabolites, was markedly affected by cysteine concentration or availability. Low cysteine availability favored its utilization for glutathione; high cysteine availability favored its catabolism to sulfate and taurine. Under conditions of low cysteine availability (incubations with 0.2 mmol/L OTC), glutathione, sulfate and taurine production accounted for 90, 10 and 1%, respectively, of total metabolism. Under conditions of high cysteine availability (incubations with 1 mmol/L cysteine + bathocuproine disulfonate), glutathione, sulfate and taurine production accounted for 19, 47 and 34%, respectively, of total metabolism. Cysteine supplied as such and cysteine formed intracellularly from methionine were similarly partitioned. These studies demonstrate that methionine is not a superior substrate to cysteine for hepatic glutathione synthesis and that cysteine concentration (presumably intracellular cysteine concentration) has a major effect on the partitioning of cysteine sulfur to taurine in rat hepatocytes.

Abstract: Various solutes were tested to see if they could modify the responses of SV-3T3 cells to hyperosmotic (0.5 osM) conditions, which cause an inhibition of general cell protein synthesis and of the rate of cell proliferation, coupled with an induction of amino acid transport activity. The added solutes were glycerol, proline, taurine, betaine, dimethylglycine and sarcosine. Of these, betaine produced the most dramatic and consistent effects. Addition of 10-25 mM-betaine to the hyperosmotic medium largely prevented the 90% inhibition of cell proliferation that occurred in its absence. Whether it was added initially or after the cells were exposed to hyperosmotic medium, 25 mM-betaine also converted a 50% recovery of the rate of protein synthesis into 100%. Similarly, the same concentrations of betaine prevented a 30% decrease in cell volume and decreased the induction of amino acid transport via system A by 73%. Lower concentrations of betaine produced smaller but still significant changes in these functional responses. With chick-embryo fibroblasts, under identical hyperosmotic conditions, 25 mM-betaine completely counteracted a 75% inhibition of the rate of protein synthesis. At present it is not clear how betaine modulates these effects of hyperosmolarity on cell functions.

Abstract: Taurine and hypotaurine levels were measured in human sperm and seminal fluid. Sperm taurine ranged from 17 nmol/mg DNA to 348 nmol/mg DNA, and hypotaurine from 0 nmol/mg DNA to 251 nmol/mg DNA. Seminal fluid contained 319 mumol/L to 1590 mumol/L of taurine, but no detectable hypotaurine. The coefficient of variation in multiple ejaculates from a single man for these components ranged from 12% for hypotaurine to 24% for seminal fluid taurine, indicating a relative constancy in their concentrations. Sperm hypotaurine content was significantly correlated with sperm morphology, sperm relative forward progression, the percentage of motile sperm, and the total number of sperm in the ejaculate. By contrast, sperm taurine content was negatively correlated with these parameters. The mean hypotaurine content of sperm from 8 fertile men was 149 +/- 92 nmol/mg DNA, four times higher than that of sperm from 9 infertile men, which was 35 +/- 19 nmol/mg DNA (P = 0.011). In contrast, the mean sperm taurine content of the fertile men was lower than that of the infertile men (83 +/- 33 nmol/mg DNA versus 168 +/- 119 nmol/mg DNA, respectively; P = 0.07). Seminal fluid taurine concentrations, however, were similar for both groups. Hypotaurine, an antioxidant, may play an important role in protecting sperm from reactive oxygen species. Higher concentrations of taurine in the sperm of infertile men suggest that accelerated oxidation of hypotaurine to taurine may accompany the observed decline in other sperm parameters.

Abstract: Both increased gamma-aminobutyric acid (GABA)-ergic and decreased glutamatergic neurotransmission have been suggested relative to the pathophysiology of hepatic encephalopathy. This proposed disturbance in neurotransmitter balance, however, is based mainly on brain tissue analysis. Because the approach of whole tissue analysis is of limited value with regard to in vivo neurotransmission, we have studied the extracellular concentrations in the cerebral cortex of several neuroactive amino acids by application of the in vivo microdialysis technique. During acute hepatic encephalopathy induced in rats by complete liver ischemia, increased extracellular concentrations of the neuroactive amino acids glutamate, taurine, and glycine were observed, whereas extracellular concentrations of aspartate and GABA were unaltered and glutamine decreased. It is therefore suggested that hepatic encephalopathy is associated with glycine potentiated glutamate neurotoxicity rather than with a shortage of the neurotransmitter glutamate. In addition, increased extracellular concentration of taurine might contribute to the disturbed neurotransmitter balance. The observation of decreasing glutamine concentrations, after an initial increase, points to a possible astrocytic dysfunction involved in the pathophysiology of hepatic encephalopathy.

Abstract: The aim of the present study was to determine whether endogenous amino acids are released from type-1 and type-2 astrocytes following non-N-methyl-D-aspartate (NMDA) receptor activation and whether such release is related to cell swelling. Amino acid levels and release were measured by HPLC in secondary cultures from neonatal rat cortex, highly enriched in type-1 or type-2 astrocytes. The following observations were made. (a) The endogenous level of several amino acids (glutamate, alanine, glutamine, asparagine, taurine, serine, and threonine) was substantially higher in type-1 than in type-2 astrocytes. (b) The spontaneous release of glutamine and taurine was higher in type-1 than in type-2 astrocytes; that of other amino acids was similar. (c) Exposure of type-2 astrocyte cultures to 50 microM kainate or quisqualate doubled the release of glutamate and caused a lower, but significant increase in that of aspartate, glycine, taurine, alanine, serine (only in the case of kainate), and glutamine (only in the case of quisqualate). These effects were reversed by the antagonist CNQX. (d) Exposure of type-1 astrocyte cultures to 50-200 microM kainate or 50 microM quisqualate did not affect endogenous amino acid release, even after treating the cultures with dibutyryl cyclic AMP. (e) Exposure of type-1 or type-2 astrocyte cultures to 50 mM KCl (replacing an equimolar concentration of NaCl) enhanced the release of taurine greater than glutamate greater than aspartate. The effect was somewhat more pronounced in type-2 than in type-1 astrocytes. Veratridine (50 microM) did not cause any increase in amino acid release. (f) The release of amino acids induced by high [K+] appeared to be related to cell swelling, in both type-1 and type-2 astrocytes. Swelling and K(+)-induced release were somewhat higher in type-2 than in type-1 astrocytes. In contrast, neither kainate nor quisqualate caused any appreciable increase in cell volume. It is concluded that non-NMDA receptor agonists stimulate the release of several endogenous amino acids (some of which are neuroactive) from type-2 but not from type-1 astrocytes. The effect does not seem to be related to cell swelling, which causes a different release profile in both type-1 and type-2 astrocytes. The absence of kainate- and quisqualate-evoked release in type-1 astrocytes suggests that the density of non-NMDA receptors in this cell type is very low.

Abstract: Repeated administration of low doses of puromycin aminonucleoside (PAMN) to rats induces a proteinuric renal disease that resembles focal segmental glomerulosclerosis (FSGS). Reactive oxygen molecules may be involved in the progressive course of this nephropathy. Therefore we evaluated whether taurine, an endogenous antioxidant, could limit the extent of renal injury. Sprague-Dawley rats received low-dose injections of PAMN, 2 mg/100 g body wt, over a 12-wk period. Two groups were studied: 1) controls given tap water (n = 23), and 2) an experimental group that drank 1% taurine-supplemented water (n = 22). Taurine-treated nephrotic rats had a reduction in albuminuria, as assessed by the urinary albumin-to-creatinine ratio (26 +/- 4 vs. 44 +/- 4, P less than 0.0001). After 12 wk, creatinine clearance was 0.33 +/- 0.03 (experimental) vs. 0.17 +/- 0.03 ml.min-1.100 g body wt-1 (control) (P less than 0.001), and inulin clearance (n = 6 pairs) was 0.26 +/- 0.04 (experimental) vs. 0.13 +/- 0.02 ml.min-1.100 g body wt-1 (control) (P less than 0.025). Administration of taurine reduced the percentage of segmentally sclerosed glomeruli (9.8 +/- 1.7 vs. 16.2 +/- 1.8%, P less than 0.02) and the tubulointerstitial injury score (1.36 +/- 0.19 vs. 2.61 +/- 0.25, P less than 0.0025) in experimental vs. control rats. Taurine treatment normalized the elevated renal cortical malondialdehyde level in rats with PAMN nephropathy (P less than 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)

Abstract: Free amino acids have been analyzed in biceps femoris muscle and adipose tissue from raw and dry-cured ham. A high increase was observed for all amino acids except glutamine and taurine. Major increases were in glutamic acid, arginine, alanine, valine, leucine, and lysine. A survey of five aminopeptidase activities of muscle and adipose tissue from raw and dry-cured ham was performed by using 7-amino-4-methylcoumarin derivatives of five amino acids (Leu, Arg, Ala, Tyr and pGlu) as substrates. Optimum activity was found at neutral pH and around 37°C, except the leucyl hydrolyzing activity which was 45°C. High recoveries of activity (25–75%) were obtained in the dry-cured ham. These enzymes might be responsible for free amino acids increasing during dry-curing.

Abstract: When MDCK cells are cultured in MEM, they maintain a high concentration of three amino acids: glutamate (25mm), taurine (19 mm) and glycine (9 mm). With incubation of the cells in hypotonic media, the contents of these amino acids measured by HPLC are reduced in different time courses: taurine decreases most rapidly, followed by glutamate and glycine. All these losses are Na+ independent. To determine the transport mechanism activated by the hypotonic media, increasing external concentrations reaching 60 mm for nine different amino acids in Na+-free media were tested separately. For the five neutral (zwitterionic) amino acids, taurine, glycine, alanine, phenylalanine and tryptophan, cell contents increased linearly with external concentrations in hypotonic media, whereas in isotonic media only a slight rise was observed. The two anionic amino acids, glutamate and aspartate, were also increased linearly with their external concentrations in hypotonic media, but the changes were lower than those found for neutral amino acids. The presence of a negative membrane potential was responsible for this behavior since, using a K+ hypotonic medium which clamps the potential to zero, the glutamate content was found to increase linearly with an amplitude similar to the one observed for neutral amino acid. When external concentrations of two cationic amino acids, arginine and lysine, were increased in hypotonic media, only a small change, similar to that in isotonic media, was observed. These results indicate that a diffusion process for neutral and anionic amino acids is activated by a volume increase and it is suggested that an anion channel is involved.

Abstract: Release of taurine and other amino acids was monitored from cultured astrocytes and neurons under isomotic and hyposmotic conditions as well as during exposure of the cells to 56 mM KCl. The release was correlated with swelling, as determined by the 3-O-methylglucose method. It was shown that release of taurine from astrocytes cultured from cerebral cortex and cerebellum of rats and mice regardless of the stimulating agent is a consequence of cell swelling. The release is unrelated to depolarization. This conclusion is also valid regarding release of taurine from cerebellar granule neurons. Comparison of release of different amino acids showed that not only taurine but also to some extent glutamate, aspartate, and glycine are released during cell swelling. On the other hand, glutamine is not released under these conditions. Studies of uptake of taurine under isosmotic and hyposmotic conditions as well as the dependency of the release on sodium and temperature strongly suggest that the release process is m...

Abstract: In the present investigation we questioned whether taurine antagonized the effects of ethanol on motor activity measured in the open field. Ten minutes following simultaneous administration (IP) of ethanol (1.0, 1.5, 2.0 and 2.5 g/kg) or saline and taurine (30, 45 and 60 mg/kg) or saline, mice were placed in open field chambers and locomotor activity was measured during a 10 min testing period. A significant interaction was found between taurine and ethanol. Taurine-treated mice displayed lower motor excitation with the 1.0 g/kg dose of ethanol than the saline group treated with the same dose of ethanol. However at the 2.0 g/kg ethanol dose, taurine-treated mice demonstrated higher motor activity than the saline treated mice, once again, treated with the same dose of ethanol. No differences in blood ethanol levels were observed between the two groups. In a second study, taurine administration (30, 45 and 60 mg/kg) did not show any effect on d-amphetamine-induced enhancement of locomotor activity (1, 2, and 3 mg/kg). Data from this study demonstrated an interaction between taurine and ethanol in their effect on locomotor activity in the open field.

Abstract: Between October 1986 and September 1988, 37 cats with moderate to severe idiopathic myocardial failure (dilated cardiomyopathy) were evaluated. Clinical management of these cats was similar to that described in the literature, except that it also included administration of 500 or 1,000 mg of the sulfur amino acid, taurine per day. Early death (death within the first 30 days of treatment) occurred in 14 (38%) cats. One cat was lost to follow-up evaluation. Twenty-two cats (59%) had marked clinical and echocardiographic improvement and survived longer than 240 days. In all but 1 cat, the observed improvement in echocardiographic measurements persisted. Hypothermia and thromboembolism were positively associated with an increased risk of early death. Administration of digoxin did not significantly affect survival. All 22 cats that survived greater than 30 days remained clinically stable despite withdrawal of all medications except taurine. Administration of taurine was eventually discontinued in 20 of the 22 cats and adequate taurine intake was thereafter provided for in the food. The clinical response and 1-year survival rate of 58% (21 of 36 cats with a known outcome) in the taurine-treated group represents a marked improvement, compared with a 1-year survival rate of 13% (4 of 31 cats with a known outcome) in a retrospectively evaluated population of 33 cats with dilated cardiomyopathy.

Abstract: Therapeutic use of amiodarone (AD), an effective antiarrhythmic drug, is associated with serious pulmonary toxicity (e.g., fibrosis and phospholipidosis). In the present study, we tested if taurine and/or niacin, which prevent bleomycin-induced lung toxicity, could prevent AD-induced lung toxicity in hamsters. AD alone significantly increased lung hydroxyproline (an index of fibrosis) and lung phospholipid (an index of phospholipidosis) levels to 154 and 133% of their control counterparts at 21 days, respectively. However, treatment of hamsters with taurine, niacin or taurine + niacin for 6 days before AD, and daily thereafter, significantly decreased subsequent AD-induced collagen accumulation. Similarly, phospholipid levels in niacin + AD and taurine + niacin + AD groups were decreased significantly compared to AD alone. We conclude that taurine and niacin administered p.o. either singly or in combination can significantly decrease AD-induced increases in lung collagen deposition and phospholipidosis and may, therefore, be potentially useful in reducing AD-induced pulmonary toxicity.

Abstract: This overview presents data showing that glucose use increases and that excitatory amino acids (i.e., glutamate, aspartate), taurine and ascorbate increase in the extracellular fluid during seizures. During the cellular hyperactive state taurine appears to serve as an osmoregulator and ascorbate may serve as either an antioxidant or as a pro-oxidant. Finally, a unifying hypothesis is given for seizure-induced brain damage. This unifying hypothesis states that during seizures there is a release of excitatory amino acids which act on glutamatergic receptors, increasing neuronal activity and thereby increasing glucose use. This hyperactivity of cells causes an influx of calcium (i.e., calcium stress) and water movements (i.e., osmotic stress) into the cells that culminate in brain damage mediated by reactive oxygen species.

Abstract: Objective: The aim was to investigate the effects of raising intracellular taurine on the intracellular sodium activity (aNai) in isolated guinea pig ventricular myocytes, and the effect of procedures that raise intracellular sodium on taurine concentration in the perfused guinea pig ventricular tissue. Methods: Taurine was introduced into the sarcoplasm of isolated ventricular myocytes, either during cell isolation or by diffusion from a penetrating micropipette, and the effect on aNai was measured using an ion sensitive microelectrode. Guinea pig hearts, mounted on a Langendorff apparatus, were perfused with a variety of physiological media and the level of taurine in the ventricles determined using high pressure liquid chromatography. Results: An increase in intracellular taurine caused by its presence during cell isolation or by diffusion from a micropipette significantly reduced the aNai of isolated myocytes at rest, during perfusion with Ca depleted solutions, or on inhibition of the Na pump. In the guinea pig ventricles, taurine at 13.0(SEM 0.6) mmol·kg−1 wet weight comprised up to 45% of the free amino acids; since plasma taurine was 64(13) μmol·litre−1, this means that in vivo a large outwardly directed gradient for taurine exists (equivalent to a free energy of 13.7 KJ·mol−1). Upon perfusion with Ca,Mg free Tyrode solution (which raises intracellular sodium markedly), a time dependent loss of taurine occurred. Both the rate of loss and the total amount lost were increased when the Na pump was also inhibited. This loss of tissue taurine was not due to release from dead or lysed cells, as it was antagonised by procedures known to reduce the rise of aNai during Ca depletion, was inhibited by β alanine (an inhibitor of taurine transport), and the fall in tissue taurine was not correlated with the appearance of lactate dehydrogenase in the effluent. Conclusions: The data from isolated myocytes and perfused guinea pig hearts were consistent with the presence of a Na/taurine symport which is activated to cause efflux of Na and taurine when either rise above their physiological level. Cardiovascular Research 1992; 26 :897–905

Abstract: Experimental evidence indicates that maintenance of urinary pH < or = 6.4 is the single most effective means of preventing feline struvite crystalluria or urolithiasis of noninfectious causes. This may be accomplished by dietary acidification, but must be moderated to avoid potential adverse effects of excessive acidification, including bone demineralization, negative calcium balance, potassium depletion, and renal disease. Effects of chronic dietary phosphoric acid supplementation on acid-base balance and on mineral and bone metabolism were investigated in adult, domestic cats. One group of 6 cats was fed a basal, naturally acidifying diet without added acidifiers, and another group of 6 cats was fed 1.7% dietary phosphoric acid. Changes observed during 12 months of study included development of noncompensated metabolic acidosis, increased urinary calcium excretion, and lower but positive calcium balance in cats of both groups. Urinary pH decreased in cats of both groups, but was significantly (P < 0.05) and consistently maintained < or = 6.4 in cats given dietary phosphoric acid. Urinary phosphorus excretion increased in cats of both groups, but was significantly (P < 0.05) greater in phosphoric acid-supplemented cats, leading to lower overall phosphorus balance as well. Potassium balance decreased in cats of both groups, but was only transiently negative in the phosphoric acid-supplemented cats midway through the study, and normalized at positive values thereafter. Plasma taurine concentration was not affected by dietary acidification, and remained well within the acceptable reference range for taurine metabolism. Double labeling of bone in vivo with fluorescent markers was followed by bone biopsy and histomorphometric measurement of several static and dynamic variables of bone formation. Overall indices of bone formation decreased in cats of both groups with age and confinement, but were not affected by dietary phosphoric acid supplementation. Dietary supplementation with phosphoric acid used as the principal inorganic P source to achieve moderate and stable degree of urinary acidification, did not appear over the course of 1 year, to have induced adverse effects on mineral, bone, or taurine balance in these adult domestic cats.

Abstract: The characteristics of gamma-aminobutyric acid (GABA) uptake were investigated in apical membrane vesicles prepared from the bovine retinal pigment epithelium. An inwardly directed NaCl gradient stimulated GABA uptake markedly, and the time course of uptake exhibited an overshoot phenomenon indicating the presence of an active transport mechanism for GABA in these membranes. Other monovalent cations were not capable of substituting for Na+. In addition to this obligatory requirement for Na+, the GABA uptake also exhibited a Cl(-)-dependence, evident from the observations that the uptake was negligible in the presence of NaF or sodium gluconate in place of NaCl. NO3- and SCN- could substitute for Cl- to some extent. The uptake process was electrogenic, with a Na+/Cl-/GABA stoichiometry of 2:1:1 or 3:1:1. Substrate-specificity studies showed that the beta-amino acids such as taurine, hypotaurine and beta-alanine interacted with the GABA uptake process. Uptake of GABA could be completely inhibited by an excess of taurine and, similarly, uptake of taurine could be completely inhibited by an excess of GABA, suggesting that common transport processes operate in the uptake of these two compounds. However, a number of compounds which are specific inhibitors of GABA uptake inhibited taurine uptake only to a maximum of 50%. Kinetic analysis of GABA uptake in the concentration range 0.1-10 microM revealed that the uptake occurred via a single system and that taurine was a competitive inhibitor of this system. The Michaelis-Menten constant (Kt) for GABA was 0.94 microM and the apparent inhibition constant (Ki) for taurine was 230 microM. On the contrary, even though the kinetic analysis of taurine uptake in the concentration range 25-150 microM revealed participation of a single system in the uptake process, the inhibition of taurine uptake by GABA was not competitive. The presence of GABA decreased the maximal velocity of the taurine uptake process and also decreased the Kt for taurine. Based on these data, it is proposed that: (i) there are two distinct transport systems, namely the GABA transporter and the taurine transporter, in these membranes which accept both GABA and taurine as substrates, (ii) the affinities of these systems for taurine are very similar and cannot be kinetically distinguished under the experimental conditions employed, and (iii) the difference between the affinities of these system for GABA is much greater than for taurine.