UNIPROT:P17174 - FACTA Search

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Query: UNIPROT:P17174 (aspartate aminotransferase)
14,872 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The contribution of testosterone to the nephrotoxic effects of 1,2-dichloropropane (DCP) was assessed by a series of castration and sex hormone replacement experiments on Wistar rats. The nephrotoxic action of DCP was evaluated by measuring the accumulation of organic anion and release of aspartate aminotransferase into the incubation medium using a renal cortical slice model. Our data show that sex, castration, and testosterone pretreatment are factors that influence the effect of DCP on renal cortical slices of rats Males appear to be more sensitive to nephrotoxic effects of DCP than females, male castration prevents the nephrotoxic effects of DCP, and pretreatment of females and castrated males with testosterone increases the susceptibility to DCP. In this study an attempt was made to evaluate the role of sex differences in the expression of enzymes participating in Phase I and Phase II detoxication reactions in order to explain the differences in sensitivity of the two genders to the nephrotoxic action of DCP. Our results implicate gender-specific expression of cytochrome P-450 in the kidneys as a predominant factor that determines the different susceptibilities of male and female rats to the nephrotoxic effect of DCP. We propose that the oxidation of DCP by CYP IIE1 is the first saturable and limiting step in the metabolic activation of DCP to nephrotoxic metabolites. It appears that, despite the fact that the nephrotoxic effect of DCP is determined mainly by its cysteine-conjugated metabolites, gluthathione (GSH) content and glutathione S-transferase (GST) activity in kidney are not directly related to increased androgen-related susceptibility to DCP.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mechanism of sex-related differences in nephrotoxicity of 1.2-dichloropropane in rats. 857 Aug 64

Incubation of pig heart cytosolic aspartate aminotransferase (pyridoxal 5'-phosphate form) with 10 mM 2-oxoglutaconic acid dimethyl ester for 2 h at 25 degrees C (pH 7.0) results in slight inactivation (approximately 15%). However, incubation of the enzyme with glutamate, or prior conversion of the enzyme to the pyridoxamine 5'-phosphate form, results in more extensive inactivation. The inactivation of the enzyme by 2-oxoglutaconic acid dimethyl ester is most pronounced in the presence of both glutamate and alpha-ketoglutarate. N-Ethylmaleimide was previously shown to alkylate two surface cysteine residues (I and II) and to react syncatalytically with a third cysteine residue (III) of cytosolic pig heart aspartate aminotransferase [Birchmeier et al. (1973) J. Biol. Chem. 248, 1751-1759]. Alkylation of cysteine III results in inactivation of the enzyme, despite the fact that this residue is not essential for catalysis. The present results suggest that 2-oxoglutaconic acid dimethyl ester reacts with the enzyme in a similar fashion to that exhibited by N-ethylmaleimide. Some inactivation by alkylation of a susceptible group at the active site cannot be ruled out. However, the rate of inactivation of cytosolic pig heart aspartate aminotransferase is proportional to the concentration of 2-oxoglutaconic acid dimethyl ester up to a concentration of at least 40 mM, suggesting that the compound binds very poorly to the active site or that alkylation at the active site is slow compared with syncatalytic alkylation of cysteine III. The t 1/2 for inactivation of pig heart cytosolic aspartate aminotransferase by 40 mM 2-oxoglutaconic acid dimethyl ester (in the presence of 10 mM L-glutamate, pH 7.2, 25 degrees C) is 9 min. Incubation of cytosolic pig heart aspartate aminotransferase with 10 mM 2-oxoglutaconate for 2 h (25 degrees C, pH 7.2) results in significant inactivation (approximately 30%). The enzyme is protected against inactivation by the presence of alpha-ketoglutarate, but glutamate enhances the inactivation. These findings suggest that 2-oxoglutaconate is an active site-directed inhibitor. The binding of 2-oxoglutaconate to the enzyme exhibits saturation kinetics (K1 approximately 2 mM), but the rate of inactivation is slow (limiting rate constant for inactivation in the presence of L-glutamate approximately 0.01 min-1; pH 6.0, 25 degrees C; t 1/2 max approximately 70 min). This finding suggests that 2-oxoglutaconate does not readily react in a syncatalytic fashion with cysteine III. Possibly, the two negative charges of 2-oxoglutaconate do not allow ready approach to cysteine III. Rather, the findings suggest that 2-oxoglutaconate binds at the active site of the pyridoxal 5'-phosphate form of the enzyme as an affinity labeling reagent. However, the increased rate of 2-oxoglutaconate-induced inactivation in the presence of glutamate suggests that this unsaturated alpha-keto acid also exhibits the properties of a kcat inhibitor. 2-Oxoglutaconate inactivates aspartate aminotransferase in cytosolic and mitochondrial fractions of rat kidney and purified pig heart alanine aminotransferase. Injection of 2-oxoglutaconate into mice results in inhibition of kidney aspartate aminotransferase. 2-Oxoglutaconate is a substrate of glutamate dehydrogenase. The kinetic constants are similar to those obtained with alpha-ketoglutarate. The results suggest that unsaturated alpha-keto acids and their esters may be useful probes for the study of alpha-keto acid-utilizing enzymes.
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PMID:Irreversible inactivation of aspartate aminotransferase by 2-oxoglutaconic acid and its dimethyl ester. 890 17

The C-S lysis of L-cysteine conjugates is one biotransformation pathway which is responsible for the generation of mutagenic and cytotoxic metabolic species. Thirteen cysteine S-conjugates were synthesized in our laboratories and incubated with aspartate aminotransferase (ASAT) and alanine aminotransferase (ALAT) enzymes from porcine heart tissue. The C-S lyase (CSL) activity for each enzyme-substrate combination was determined. ASAT and ALAT were shown to exhibit CSL activity and it was also demonstrated that this activity was inhibited in the presence of the pyridoxal phosphate-dependent enzyme inhibitor amino(oxyacetic acid) confirming the pyridoxal phosphate-dependent mechanism by which C-S lysis is known to take place. This finding has potentially important implications for the risk assessment of compounds which produce L-cysteine conjugates during their biotransformation.
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PMID:Novel sources of mammalian C-S lyase activity. 893 63

Pretreatment of fasted rats with aminooxyacetic acid (AOAA, 0.25 mmol kg-1, i.p.), methimazole (MTZ, 0.35 mmol kg-1, i.p.) and acivicin (AT-125, 56 mumol kg-1, i.p.) 30 min prior to a 4-h inhalation exposure to 180-200 ppm or 150-180 ppm vinylidene chloride (VDC) was used to study the role of cysteine beta-lyase, cysteine conjugate S-oxidase and gamma-glutamyltranspeptidase (gamma-GT) in VDC-induced liver and kidney toxicity. Pretreatment with AOAA reduced by 65-95% those increases in serum alanine aminotransferase (ALAT), glutamate dehydrogenase (GLDH) and sorbitol dehydrogenase (SDH) caused by exposure to 180-200 ppm VDC. This pretreatment also prevented VDC-induced increases in aspartate aminotransferase (ASAT) and N-acetyl-beta-d-glucosaminidase (NAG) activities and in the concentration of beta 2-microglobulin (beta 2-m) in 24-h urine samples. There was only a slight potentiation of VDC-induced liver and renal toxicities by MTZ given before exposure to 180-200 ppm VDC, but potentiation became significant (40-80%) when MTZ was administered before a slightly lower level of exposure (150-180 ppm). Pretreatment with AT-125 did not significantly change the liver and renal effects of exposure to 180-200 ppm VDC. These results suggest that the formation of a cysteine conjugate may be involved in the renal and liver toxicity of VDC in fasted rats.
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PMID:Role of cysteine conjugation in vinylidene chloride-induced nephrotoxicity and hepatotoxicity in fasted rats. 893 83

Long-term exposure to trichloroethylene can cause kidney cancer in experimental animals and humans. In addition, dichloroacetylene (a breakdown product of trichloroethylene) is nephrotoxic and neurotoxic. Both trichloroethylene and dichloroacetylene are metabolized in part to the corresponding cysteine S-conjugate (i.e. S-(1,2-dichlorovinyl)-L-cysteine) which is toxic. Cysteine S-conjugate beta-lyases convert S-(1,2,dichlorovinyl)-L-cysteine to pyruvate, ammonia and a reactive fragment that adds to macromolecules, depletes cellular thiols and causes lipid peroxidation. We now show that S-(1,2-dichlorovinyl)-L-cysteine and another nephrotoxic cysteine S-conjugate, S-(1,1,2,2-tetrafluoroethyl)-L-cysteine, inactive purified cytosolic aspartate aminotransferase and purified alanine aminotransferase. These cysteine S-conjugates also inactive aspartate aminotransferase in cytosolic and mitochondrial fractions of rat brain and kidney. The present results suggest that some halogenated xenobiotics may be toxic in part through their conversion to the corresponding cysteine S-conjugate which inactivates key pyridoxal 5'-phosphate-containing enzyme.
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PMID:Inactivation of brain and kidney aspartate aminotransferases by S-(1,2,-dichlorovinyl)-L-cysteine and by S-(1,1,2,2,-tetrafluoroethyl)-L-cysteine. 894 Jun 25

The two conjugates, S-[N-(2-hydroxyethyl)carbamoylmethyl]glutathione (GSAAE), and its corresponding mercapturic derivative N-acetyl-S-[N-(2-hydroxyethyl)carbamoylmethyl]cysteine (NCySAAE) were administered to fasted Sprague-Dawley rats as putative metabolites of vinylidene chloride (VDC). Methylthioacetylaminoethanol (MAAE) was identified in the urine of GSAAE- or NCySAAE-treated rats (0.5-2.0 mmol/kg, i.p.), as well as in the urine of VDC-treated rats (0.5-2.0 mmol/kg, p.o.). The effects of VDC, GSAAE and NCySAAE on the kidney and liver were also examined using aspartate aminotransferase (ASAT). N-acetyl-beta-D-glucosaminidase (NAG) and beta 2-microglobulin (beta 2-m) as urinary parameters of nephrotoxicity, and glutamate dehydrogenase (GLDH), sorbitol dehydrogenase (SDH) and alanine aminotransferase (ALAT) as serum parameters of hepatotoxicity. Unlike treatment with VDC, treatment with both GSAAE and NCySAAE failed to cause kidney and liver toxicity. The results support the hypothesis that MAAE originates from the formation of GSAAE and further metabolization to NCySAAE, and that MAAE excretion does not reveal a pathway of reactive intermediates.
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PMID:Formation of GSH-derivatives as a pathway for inactive intermediates in vinylidene chloride-treated rats. 900 91

Many aspects of the mechanism by which the GroEL/ES chaperonins mediate protein folding are still unclear, including the amount of structure present in the substrate bound to GroEL. To address this issue we have analyzed the susceptibility to limited proteolysis and to alkylation of cysteine residues of mitochondrial aspartate aminotransferase (mAAT) bound to GroEL. Several regions of the N-terminal portion of GroEL-bound mAAT are highly susceptible to proteolysis, whereas a large core of about 200 residues containing the C-terminal half of the polypeptide chain is protected in the complex. This protection does not extend to the mAAT sulfhydryl groups which in the GroEL-mAAT complex have similar reactivity as in fully unfolded mAAT. These results suggest that the mAAT species bound to GroEL represent folding intermediates with a conformation that is substantially more disorganized than that of the native state. The N-terminal half of the molecule is more flexible and lies exposed at the mouth of the central cavity of GroEL. The more compact C-terminal section of mAAT, which contains residues located at the subunit interface in the native dimer, appears to be hidden in the central cavity of GroEL. Thus, the bulk of the interactions in the GroEL.mAAT complex seems to involve residues from the more compact C-terminal section of the substrate.
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PMID:Insight into the conformation of protein folding intermediate(s) trapped by GroEL. 946 76

We examined the effect of gamma-glutamylcysteinylethyl ester (gamma-GCE), which is readily transported into hepatocytes and increases hepatocellular reduced glutathione (GSH) levels, on the progression of carbon tetrachloride (CCl4)-induced liver injury in mice in comparison with that of GSH. Administration of more than 160 micromol/kg of gamma-GCE, but not GSH, to mice at 3 h after intraperitoneal injection of CCl4 (1 ml/kg) significantly attenuated increases in serum aspartate aminotransferase and alanine aminotransferase activities at 24 h after the CCl4 injection. Increases in hepatic lipid peroxide (LPO) concentrations and decreases in hepatic GSH concentrations after the CCl4 injection were significantly diminished by the gamma-GCE (160 micromol/kg) administration, but not by the same dose of GSH. Gamma-GCE, gamma-glutamylcysteine, and cysteine acted as substrates for glutathione peroxidases much less efficiently than GSH in the post-mitochondrial fraction of normal mouse liver cells. These results indicate that gamma-GCE attenuates the progression of CCl4-induced acute liver injury in mice through the maintenance of hepatic GSH levels, leading to inhibition of hepatic LPO formation, which could be due to an efficient utilization of GSH converted from gamma-GCE in the liver cells.
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PMID:Gamma-glutamylcysteinylethyl ester attenuates progression of carbon tetrachloride-induced acute liver injury in mice. 958 92

Cisplatin [cis-dichlorodiammineplatinum (II)] is a widely used chemotherapeutic drug that is toxic to the kidney. Concurrent administration of cysteine together with vitamin E, Crocus sativus and Nigella sativa reduced the toxicity of cisplatin in rats. When administered i.p. for 5 alternate days with 3 mg/kg cisplatin, cysteine (20 mg/kg) together with vitamin E (2 mg/rat) an extract of Crocus sativus stigmas (50 mg/kg) and Nigella sativa seed (50 mg/kg) significantly reduced blood urea nitrogen (BUN) and serum creatinine levels as well as cisplatin-induced serum total lipids increases. In contrast, the protective agents given together with cisplatin led to an even greater decrease in blood glucose than that seen with cisplatin alone. The serum activities of alkaline phosphatase, lactate dehydrogenase, malate dehydrogenase, aspartate aminotransferase and alanine aminotransferase of cisplatin-treated rats were significantly decreased, whereas the activities of glutathione reductase and isocitrate dehydrogenase were significantly increased. Addition of cysteine and vitamin E, Crocus sativus and Nigella sativa in combination with cisplatin partially prevented many changes in the activities of serum enzymes. In cisplatin-treated rats, the liver activities of isocitrate dehydrogenase and aspartate aminotransferase were significantly increased, whereas much greater changes were found in the kidneys, with increased activity of glucose-6-phosphate dehydrogenase and decreased activities of alkaline phosphatase, isocitrate dehydrogenase, malate dehydrogenase, aspartate aminotransferase, alanine aminotransferase, sorbitol dehydrogenase and gamma-glutamyl transferase, as well as a decreased phosphorylation to oxidation ratio in the mitochondria, indicating reduced adenosine triphosphate production. Also, administration of cysteine and vitamin E, Crocus sativus and Nigella sativa together with cisplatin partially reversed many of the kidney enzymes changes induced by cisplatin. Cysteine together with vitamin E, Crocus sativus and Nigella sativa tended to protect from cisplatin-induced falls in leucocyte counts, haemoglobin levels and mean osmotic fragility of erythrocytes and also prevented the increase in haematocrit. The results of this study indicate a basis for the toxic effects of cisplatin, and suggest a possible way of counteracting the toxicity by introducing protective agents such sulphydryl compounds, other antioxidants and extracts of natural products. It also appears that cells adapt to the effects of cisplatin through the induction of systems that produce NADPH, which in turn compensates the decrease of free sulphydryl groups. We conclude that cysteine and vitamin E, Crocus sativus and Nigella Sativa may be a promising compound for reducing cisplatin-toxic side effects including nephrotoxicity.
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PMID:Protective effect of cysteine and vitamin E, Crocus sativus and Nigella sativa extracts on cisplatin-induced toxicity in rats. 960 69

Kinetic properties and thermal stabilities of the precursor form of mitochondrial aspartate aminotransferase, the mature form lacking 9 amino acids from the N-terminus, and forms of the mature protein in which cysteine-166 had been mutated to serine or alanine were compared with those of the mature enzyme. The precursor and the cysteine mutants showed moderately impaired catalytic properties consistent with decreased ability to undergo transition from the open to the closed conformation which is an integral part of the mechanism of action of the enzyme. The deletion mutant had a kcat only 2% of that of the mature enzyme but also much reduced Km values for both substrates. In addition it showed enhanced reactivity of cysteine-166 with 5,5'-dithiobis(2-nitrobenzoate), which is characteristic of the closed form of the enzyme, with no enhancement of reactivity in the presence of substrates. This is taken to show that the deletion mutant adopts a conformation that is significantly different from that of the mature enzyme particularly in respect of the small domain. The deletion mutant was found to be more resistant to thermal inactivation over a range of temperatures than were the other forms of the enzyme consistent with its having a more tightly packed small domain.
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PMID:Kinetic properties and thermal stabilities of mutant forms of mitochondrial aspartate aminotransferase. 967 37

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