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)

Several halogenated alkenes are metabolized in part to cysteine S-conjugates, which are mitochondrial toxicants of kidney and, to a lesser extent, other organs. Toxicity is due to cysteine S-conjugate beta-lyases, which convert the cysteine S-conjugate into pyruvate, ammonia and a reactive sulphur-containing fragment. A section of the human population is exposed to halogenated alkenes. To understand the health effects of such exposure, it is important to identify cysteine S-conjugate beta-lyases that contribute to mitochondrial damage. Mitochondrial aspartate aminotransferase [Cooper, Bruschi, Iriarte and Martinez-Carrion (2002) Biochem. J. 368, 253-261] and mitochondrial branched-chain aminotransferase [Cooper, Bruschi, Conway and Hutson (2003) Biochem. Pharmacol. 65, 181-192] exhibit beta-lyase activity toward S -(1,2-dichlorovinyl)-L-cysteine (the cysteine S-conjugate of trichloroethylene) and S -(1,1,2,2-tetrafluoroethyl)-L-cysteine (the cysteine S-conjugate of tetrafluoroethylene). Turnover leads to eventual inactivation of these enzymes. Here we report that mitochondrial L-alanine-glyoxylate aminotransferase II, which, in the rat, is most active in kidney, catalyses cysteine S-conjugate beta-lyase reactions with S -(1,1,2,2-tetrafluoroethyl)-L-cysteine, S -(1,2-dichlorovinyl)-L-cysteine and S -(benzothiazolyl-L-cysteine); turnover leads to inactivation. Previous workers showed that the reactive-sulphur-containing fragment released from S -(1,1,2,2-tetrafluoroethyl)-L-cysteine and S -(1,2-dichlorovinyl)-L-cysteine is toxic by acting as a thioacylating agent - particularly of lysine residues in nearby proteins. Toxicity, however, may also involve 'self-inactivation' of key enzymes. The present findings suggest that alanine-glyoxylate aminotransferase II may be an important factor in the well-established targeting of rat kidney mitochondria by toxic halogenated cysteine S-conjugates. Previous reports suggest that alanine-glyoxylate aminotransferase II is absent in some humans, but present in others. Alanine-glyoxylate aminotransferase II may contribute to the bioactivation (toxification) of halogenated cysteine S-conjugates in a subset of individuals exposed to halogenated alkenes.
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PMID:L-alanine-glyoxylate aminotransferase II of rat kidney and liver mitochondria possesses cysteine S-conjugate beta-lyase activity: a contributing factor to the nephrotoxicity/hepatotoxicity of halogenated alkenes? 1285 50

Hypercreatinuria is a well-known feature of liver and testicular toxicity and we have recently proposed that hepatotoxin-induced hypercreatinuria would arise as a consequence of increased cysteine synthesis associated with the provision of protective substances (glutathione and/or taurine). Here a direct relationship between hepatotoxin-induced hypercreatinaemia and hypercreatinuria is shown and the possible relationships of hepatotoxin-induced hypercreatinaemia and hypercreatinuria to hepatic damage and to weakened nutritional status are examined. Male Sprague-Dawley rats were dosed with a variety of model hepatotoxins at two dose levels per toxin. Blood plasma samples taken at 24 h post-dosing and urine samples collected from 24-31 h post-dosing were analysed by (1)H NMR spectroscopy. Both hypercreatinaemia and hypercreatinuria were found in rats dosed with allyl formate (75 mg/kg), chlorpromazine (30 and 60 mg/kg), alpha-naphthylisothiocyanate (ANIT, 100 mg/kg) and thioacetamide (200 mg/kg), whilst significant hypercreatinuria, but not hypercreatinaemia, was found after dosing with thioacetamide (50 mg/kg). Neither hypercreatinaemia nor hypercreatinuria were found after dosing with allyl formate (25 mg/kg), ethionine (300 and 1000 mg/kg) or ANIT (30 mg/kg). Reduced feeding is known to cause hypercreatinuria in rats and, of the four hepatotoxins that induced hypercreatinaemia and hypercreatinuria at the given time-points, two, chlorpromazine and ANIT, also affected nutritional status with ketosis being clearly identifiable from the plasma (1)H NMR spectra. Thus, the creatine changes induced by ANIT and chlorpromazine are potentially attributable, in whole or in part, to reduced feeding rather than to liver effects alone and, consequently, the results were examined with and without inclusion of the ANIT and chlorpromazine data. With all of the data included, there were eight out of ten points of correspondence between the incidence of hypercreatinaemia and/or hypercreatinuria and the incidence of increases in plasma alanine aminotransferase (ALT) activity. At the same time there were nine out of ten points of correspondence between the incidence of hypercreatinaemia and/or hypercreatinuria and the incidence of increases in plasma aspartate aminotransferase (AST) activity. However, with the ANIT and chlorpromazine data excluded there was complete (six out of six points) correspondence between the incidence of hypercreatinaemia and/or hypercreatinuria and the incidence of increases in plasma AST and ALT in the remaining data. Likewise, with all of the data included, there was some apparent correlation (correlation coefficient, r=0.80) between the group mean levels of plasma AST and plasma creatine when expressed relative to the mean values for controls sampled at the same time-point. However, with the ANIT and chlorpromazine data excluded, that correlation coefficient was increased to 0.95. The findings of these studies suggest that the ANIT- and chlorpromazine-induced creatine changes may have been caused by reduced feeding rather than by liver toxicity. The allyl formate and thioacetamide data indicate that hepatocellular necrosis is accompanied by increases in plasma and urinary creatine, and suggest the possibility of a quantitative relationship between the increases in plasma AST and the increases in plasma creatine that are associated with hepatocellular necrosis. The ethionine and ANIT data suggest that fatty liver (steatosis) and cholestatic damage may not be associated with hypercreatinaemia and hypercreatinuria.
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PMID:Hepatotoxin-induced hypercreatinaemia and hypercreatinuria: their relationship to one another, to liver damage and to weakened nutritional status. 1452 May 8

Hepatic ischemia-reperfusion (I-R) injury frequently is associated with cholestasis. However, the underlying mechanisms are not fully understood. The aim of the study is to assess bile secretory function in vivo in rats subjected to warm lobar hepatic ischemia at different times during reperfusion. A model of lobar 70% warm hepatic ischemia for 30 minutes was used with studies conducted at 1 and 6 hours and 1, 3, and 7 days after reperfusion. Bile secretory function was assessed after selective cannulation of bile ducts of ischemic (ILs) and nonischemic lobes (NILs). Serum activity of hepatic alanine and aspartate aminotransferase was slightly increased in rats subjected to I-R, whereas serum bile salt levels increased early during reperfusion, returning to control values after 7 days. ILs showed mild reversible leukocyte infiltration and no significant necrosis. Bile flow and bile salt excretion were significantly decreased in ILs during the first 24-hour reperfusion period compared with sham-operated rats and NILs. A marked reduction in glutathione (GSH) excretion occurred at 1 and 6 hours and 1 and 3 days, which returned to control values after 7 days. Total GSH and both reduced and oxidized GSH levels in liver homogenate and arterial blood GSH levels were unchanged at all times. Protein mass of multidrug resistance protein 2 and its function, assessed by the hepatic maximum secretory rate of ceftriaxone, did not show significant changes in ILs or NILs compared with sham-operated rats. Liver tissue gamma-glutamyl transpeptidase (GGT) and gamma-glutamylcysteine synthetase activities remained unchanged, whereas biliary GGT and cysteine secretory rates were significantly increased in ILs and NILs. Administration of acivicin, a GGT inhibitor, resulted in decreased secretion of this enzyme into bile and a parallel marked increase in biliary GSH secretion compared with untreated ischemic rats. In conclusion, warm hepatic I-R induces reversible cholestatic changes in ILs. GSH secretory rates from both ILs and NILs were markedly decreased during reperfusion. The reversibility of this effect after GGT inhibition, as well as increased release of active GGT into bile and cysteine biliary secretory rates, suggest increased GSH degradation in bile. These findings might be relevant for the I-R-induced clinical cholestasis, as well as cholangiocyte injury, seen after hepatic ischemia.
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PMID:Bile secretory function after warm hepatic ischemia-reperfusion injury in the rat. 1458 82

Bovine core 2 beta1,6-N-acetylglucosaminyltransferase-M (bC2GnT-M) catalyzes the formation of all mucin beta1,6-N-acetylglucosaminides, including core 2, core 4, and blood group I structures. These structures expand the complexity of mucin carbohydrate structure and thus the functional potential of mucins. The four known mucin beta1,6-N-acetylglucosaminyltransferases contain nine conserved cysteines. We determined the disulfide bond assignments of these cysteines in [(35)S]cysteine-labeled bC2GnT-M isolated from the serum-free conditioned medium of Chinese hamster ovary cells stably transfected with a pSecTag plasmid. This plasmid contains bC2GnT-M cDNA devoid of the 5'-sequence coding the cytoplasmic tail and transmembrane domain. The C18 reversed phase high performance liquid chromatographic profile of the tryptic peptides of reduced-alkylated (35)S-labeled C2GnT-M was established using microsequencing. Each cystine pair was identified by rechromatography of the C8 high performance liquid chromatographic radiolabeled tryptic peptides of alkylated bC2GnT-M on C18 column. Among the conserved cysteines in bC2GnT-M, the second (Cys(113)) was a free thiol, whereas the other eight cysteines formed four disulfide bridges, which included the first (Cys(73)) and sixth (Cys(230)), third (Cys(164)) and seventh (Cys(384)), fourth (Cys(185)) and fifth (Cys(212)), and eighth (Cys(393)) and ninth (Cys(425)) cysteine residues. This pattern of disulfide bond formation differs from that of mouse C2GnT-L, which may contribute to the difference in substrate specificity between these two enzymes. Molecular modeling using disulfide bond assignments and the fold recognition/threading method to search the Protein Data Bank found a match with aspartate aminotransferase structure. This structure is different from the two major protein folds proposed for glycosyltransferases.
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PMID:Identification of disulfide bonds among the nine core 2 N-acetylglucosaminyltransferase-M cysteines conserved in the mucin beta6-N-acetylglucosaminyltransferase family. 1522 99

Alterations in the hepatic metabolism of sulfur amino acids in experimental cholestasis induced by alpha-naphthylisothiocyanate (ANIT) (100 mg/kg, po) were monitored in male mice for 1 week. We also examined the effects of betaine supplementation (1% in drinking water) for 2 weeks on the hepatotoxicity and changes in the sulfur amino acid metabolism induced by ANIT treatment. Acute ANIT challenge elevated the serum alkaline phosphatase (ALP), alanine aminotransferase (ALT), aspartate aminotransferase (AST) activities, and total bilirubin contents from 5 h after the treatment, reaching a peak at t = 48-72 h. Hepatic S-adenosylmethionine (SAM) and S-adenosylhomocysteine (SAH) levels were decreased significantly in a manner almost inversely proportional to the changes in serum parameters measured to determine the ANIT-induced toxicity. Hepatic glutathione and cysteine levels were elevated at t = 120 h after the treatment. Betaine supplementation blocked or significantly attenuated induction of the hepatotoxicity by ANIT. The decrease in SAM and SAH levels was also inhibited by betaine intake. The results indicate that betaine supplementation may antagonize the induction of experimental cholestasis and changes in the metabolism of sulfur amino acids associated with ANIT treatment. The underlying mechanism and pharmacological significance of its action are discussed.
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PMID:Effect of betaine supplementation on changes in hepatic metabolism of sulfur-containing amino acids and experimental cholestasis induced by alpha-naphthylisothiocyanate. 1577 5

Tetrafluoroethylcysteine (TFEC), a metabolite of the industrial gas tetrafluoroethylene, can cause both nephrotoxicity and limited hepatotoxicity in animal models, and this is associated with the covalent modification of specific intramitochondrial proteins including heat shock protein 60 (HSP60), mitochondrial HSP70 (mtHSP70), aspartate aminotransferase (AST), aconitase, and alpha-ketoglutarate dehydrogenase (alphaKGDH). Using the murine TAMH cell line as a useful in vitro model for TFEC toxicity, we demonstrate a rapid and sustained induction of Nrf2, a member of the "cap-and-collar" transcription factor family, following exposure to cytotoxic concentrations of TFEC. A functional correlate was also established with the rapid translocation of cytosolic Nrf2 into the nucleus. In addition, transcriptional and translational upregulation of known Nrf2 regulated genes including glutamate cysteine ligase (GCL), both catalytic and modulatory subunits, heme oxygenase-1, and glutathione S-transferase (GST) isoforms were detected. While Nrf2 activation is often linked to perturbation of cellular thiol status and/or oxidative stress, we were unable to detect any significant depletion of cellular glutathione or oxidation of mitochondrial membrane cardiolipin or increases in reactive oxygen species (ROS). These data suggest Nrf2 activation is likely independent of classical oxidative stress or, at best, a result of a transient, low-level redox stress. Moreover, supporting evidence indicates an early endoplasmic reticular (ER) stress response after TFEC treatment, with a time-dependent upregulation of the ER responsive genes gadd34, gadd45, gadd153, and ndr1 . These findings suggest an alternative pathway for Nrf2 activation, i.e., Nrf2 phosphorylation through ER-mediated protein kinases such as PKR-like endoplasmic reticular kinase (PERK). Overall, the results implicate a role for Nrf2 in the cellular response to TFEC toxicity and suggest a previously unrecognized role for the ER in this model of mitochondrially initiated cytotoxicity.
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PMID:Nrf2 activation involves an oxidative-stress independent pathway in tetrafluoroethylcysteine-induced cytotoxicity. 1590 13

In vivo protective effects of s-allyl cysteine (SAC) and s-propyl cysteine (SPC) against acetaminophen-induced hepatotoxicity in Balb/cA mice were studied. SAC and SPC at 1g/L were added into drinking water for four weeks and followed by acetaminophen treatment. Acetaminophen treatment significantly depleted glutathione content, increased oxidation stress and elevated alanine aminotransferase (ALT) and aspartate aminotransferase (AST) activities (P < 0.05); however, the intake of SAC or SPC significantly alleviated glutathione depletion and the elevation of ALT and AST, enhanced glutathione peroxidase activity, and lowered malondialdehyde formation (P < 0.05). Plasma levels of C-reactive protein (CRP), von Willebrand factor (vWF), IL-6, IL-10 and TNF-alpha were significantly increased by acetaminophen treatment (P < 0.05); and SAC or SPC intake significantly suppressed acetaminophen-induced elevation of CRP, vWF and the three cytokines (P < 0.05). Acetaminophen treatment also significantly increased plasminogen activator inhibitor-1 (PAI-1) activity and plasma fibrinogen level, and decreased antithrombin III (AT-III) and protein C activities (P < 0.05). SAC or SPC intake alleviated AT-III and protein C reduction (P < 0.05); but did not affect PAI-1 activity and plasma fibrinogen level (P > 0.05). These data suggest that SAC and SPC are potential multiple-protective agents against acetaminophen-induced hepatotoxicity.
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PMID:Protective effect of s-allyl cysteine and s-propyl cysteine on acetaminophen-induced hepatotoxicity in mice. 1618 16

Effect of carbon tetrachloride (CCl(4)) pretreatment on the biotransformation and elimination of acetaminophen were examined in male mice. A 24 hr initial dose of CCl(4) (0.05 ml/kg, intraperitioneally) reduced the induction of hepatotoxicity resulting from acetaminophen treatment (350 mg/kg, intraperitoneally) as determined by changes in serum alanine and aspartate aminotransferase, and sorbitol dehydrogenase activities. Acetaminophen and the major metabolites in plasma were monitored for 12 hr following acetaminophen treatment. CCl(4) pretreatment decreased the plasma concentrations of acetaminophen-cysteine and acetaminophen-mercapturate, but acetaminophen-glucuronide and acetaminophen-sulfate were increased significantly. The elimination of the parent drug from plasma was not affected by CCl(4). In urine collected for 24 hr, the concentrations of acetaminophen-sulfate and acetaminophen-glucuronide were increased by 84% and 33%, respectively, whilst acetaminophen-cysteine and acetaminophen-mercapturate were reduced to approximately one third of control. Expression of cytochrome P450 (CYP) isozymes was determined using antibodies of 2E1 and 1A2 as probes. CYP2E1 and 1A2 expressions were decreased significantly by CCl(4). Likewise, CCl(4) treatment reduced the microsomal p-nitrophenol hydroxylase and p-nitroanisole O-demethylase activities to less than one third of control. The results indicate that, although CCl(4) reduces the generation of thioether conjugates of acetaminophen by decreasing the CYP activities, inhibition of the oxidative metabolism of acetaminophen is counterbalanced by the enhancement of conjugate formation via the glucuronide and sulfate pathways, resulting in elimination of the drug at a rate equivalent to that in normal mice. It is suggested that liver injury in patients may not warrant a mandatory reduction of drug doses extensively inactivated via phase II reactions.
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PMID:Contrasting changes in phase I and phase II metabolism of acetaminophen in male mice pretreated with carbon tetrachloride. 1644

The present study was designed to evaluate the preventive effect of S-allyl cysteine sulfoxide (SACS) in isoproterenol (ISO)-induced myocardial ischaemia in male Wistar rats. Rats were pretreated with SACS (40 and 80 mg kg(-1) body-weight) for 5 weeks. After the treatment period, ISO (150 mg kg(-1) body-weight) was administered subcutaneously to rats at intervals of 24 h for 2 days. The activities of creatine kinase, creatine kinase-MB, lactate dehydrogenase, aspartate transaminase and alanine transferase were significantly increased in serum and significantly decreased in the hearts of ISO-treated rats. Pretreatment with SACS decreased the activities of these enzymes significantly in serum and significantly increased the activities in heart in ISO-treated rats. The levels of cholesterol, triglycerides and free fatty acids increased in serum and heart, while the levels of phospholipids increased in serum and decreased in heart in ISO-treated rats. SACS pretreatment showed a significant effect on the lipids studied. The activity of 3-hydroxy 3-methyl glutaryl coenzyme A (HMG CoA) reductase was significantly increased and the activity of lecithin cholesterol acyl transferase (LCAT) was significantly reduced in ISO-induced rats. Oral pretreatment with SACS significantly decreased the activity of HMG CoA reductase and significantly increased the activity of LCAT in ISO-induced rats. The levels of plasma thiobarbituric acid reactive substances and hydroperoxides were increased in ISO-treated rats. Pretreatment with SACS significantly decreased the levels of lipidperoxides in ISO-treated rats. The effect at a dose of 80 mg kg(-1) body-weight was more effective than at a dose of 40 mg kg(-1) body-weight and brought back all the biochemical parameters to near normal levels. Thus our study shows that SACS has a lipid-lowering effect in ISO-induced rats. Our study may have clinical relevance.
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PMID:Preventive effect of S-allyl cysteine sulfoxide (alliin) on cardiac marker enzymes and lipids in isoproterenol-induced myocardial injury. 1664 Aug 30

The conversion of cysteine to 3-sulfino-alanine is a major pathway in cysteine catabolism. Cysteine dioxygenase catalyzes the reaction and dietary intake of the essential amino acid methionine and the semi-essential amino acid cysteine increases the level of this enzyme by suppressing enzyme degradation via polyubiquitination. The production of cellular antioxidants such as glutathione, thioredoxin, and their families is important in cysteine metabolism, and these cellular antioxidants have critical roles in the maintenance of the cellular redox status. The mercaptopyruvate pathway, in which cysteine or aspartate transaminase catalyzes the transamination from cysteine to 3-mercaptopyruvate and then 3-mercaptopyruvate sulfurtransferase catalyzes the transsulfuration from 3-mercaptopyruvate to pyruvate, also contributes to maintain the cellular redox. 3-Mercaptopyruvate sulfurtransferase serves as an antioxidant protein: when the enzyme is exposed to stoichiometric amounts of the oxidant hydrogen peroxide, it is inhibited via the formation of low redox sulfenate at the catalytic site cysteine. On the other hand, activity is restored by the reductant dithiothreitol or reduced thioredoxin. 3-Mercaptopyruvate sulfurtransferase also detoxifies cyanide via transsulfuration from a stable persulfide at the catalytic site cysteine, a reaction intermediate, suggesting that cyanide detoxification is not necessarily an enzymatic reaction. Furthermore, a congenital defect of the enzyme causes mercaptolactate-cysteine disulfiduria associated with or without mental retardation, although the pathogenesis remains unclear. These facts suggest that 3-mercaptopyruvate sulfurtransferase has physiologic roles as an antioxidant and a cyanide antidote; is essential for neural function, and participates in cysteine degradation.
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PMID:The mercaptopyruvate pathway in cysteine catabolism: a physiologic role and related disease of the multifunctional 3-mercaptopyruvate sulfurtransferase. 1671 81

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