EC:2.6.1.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.6.1.2 (alanine aminotransferase)
26,722 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Heat shock proteins are ubiquitous intracellular proteins induced by various physiological stress-related events. A 72-kDa heat shock protein (HSP72) has been reported to be an endogenous cytoprotectant in variety of cells in vitro. In order to study the cytoprotective function of HSP72 in the liver, the effect of preinduction of HSP72 in rat liver by systemic hyperthermia on thioacetamide-induced hepatic injury was investigated in this study. Expression of HSP72 in the liver was investigated by immunoblot and densitometric analysis. Rats were injected with thioacetamide (100 mg/kg, subcutaneously) with or without preinduction of HSP72 by hyperthermia. Serum AST and ALT concentrations were measured before and after thioacetamide injection in both group. Histologic alteration of the liver was evaluated also. Systemic hyperthermia (42.5 degrees C, 20 min) significantly induced HSP72 in the liver. Thioacetamide-induced hepatic injury was clearly prevented by preinduction of HSP72 by hyperthermia. Prevention of hepatocyte damage was more clear in the area around central veins where HSP72 induction was apparent. Our findings might suggest that HSP72 has an important function in the liver with respect to cytoprotection. These results might be important for understanding the mechanism of "adaptive cytoprotection" in the liver mediated by the function of heat shock proteins as "molecular chaperons" as reported in vitro.
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PMID:Induction of a 72-kDa heat shock protein and cytoprotection against thioacetamide-induced liver injury in rats. 933 Nov 66

Amphetamine has been shown previously to increase levels of the inducible 70-kDa heat shock protein (hsp70i) in mouse liver. In the present study, the hepatic concentrations of a variety of hsps in livers of mice pretreated with amphetamine (15 mg/kg, i.p.) were evaluated, and the time course of hsp induction was examined. Amphetamine treatment caused an acute rise in core body temperature to 40 degrees C for at least 1 hr and increased hsp25 and hsp70i levels, as measured by Western blotting, at 6, 24, 48, and 72 hr with no apparent induction of other hsps (hsp60, hsc70, or hsp90). A 72-hr amphetamine pretreatment lowered the hepatotoxicity of an acute dose of acetaminophen (350 mg/kg, i.p.) or bromobenzene (0.45 ml/kg, i.p.), but had no effect on the toxicity of carbon tetrachloride (0.04 ml/kg, i.p.) or cocaine (50 mg/kg, i.p.), as measured by serum alanine aminotransferase activity and histopathological analysis. No protection from acetaminophen or bromobenzene hepatotoxicity was observed when hepatotoxicant administration was delayed until hsp levels had returned to control values (144 hr after amphetamine pretreatment). Amphetamine pretreatment did not reduce in vivo covalent binding to proteins of radiolabeled [3H]acetaminophen, [14C]bromobenzene, [14C]carbon tetrachloride, or [3H]cocaine, indicating that the protective effects were not due to inhibition of reactive metabolite formation from these toxicants. These results suggest that elevated levels of hsp25 and hsp70i provide protection against acetaminophen and bromobenzene hepatotoxicity.
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PMID:Protection against hepatotoxicity by a single dose of amphetamine: the potential role of heat shock protein induction. 943 20

Recent evidence suggests that the hepatic expression of heme oxygenase-1 (HO-1) may preserve hepatocellular integrity after hemorrhagic shock and resuscitation (HR). Because nitric oxide (NO) has been shown to modulate HO-1 expression in cultured cells in vitro, we determined its potential role in the regulation of HO-1 expression after HR in the rat liver in vivo. HO-1 mRNA and protein were highly induced and HO enzyme activity was higher after HR when compared with time-matched sham controls. Administration of the NO donor, molsidomine (MOL) (3 mg. kg(-1)), during resuscitation attenuated the accumulation of HO-1 mRNA and protein and the rise in HO activity. In addition, MOL prevented the shock-induced increase in DNA binding activity of the transcription factor, activator protein-1 (AP-1), but did not alter the activity of nuclear factor-erythroid 2 related factor (Nrf-2), nuclear transcription factor-kappaB (NF-kappaB), and hypoxia-inducible factor-1 (HIF-1). The suppressing action of MOL was not confined to HO-1, because the hepatic expression of the 70-kd major heat shock protein (HSP) in response to HR was also diminished. Moreover, MOL prevented the HR-induced increase in the serum activity of alanine transaminase (ALT) and alpha-glutathione-S-transferase (alpha-GST) that could otherwise be observed after HR. In contrast, the NO synthase inhibitor, N(omega)-nitro-L-arginine methyl ester (L-NAME) (1 mg.kg(-1)), had either no or only minor effects on the primary experimental endpoints. These findings would be consistent with a reduction of shock-induced liver damage by exogenous NO, which in turn prevents the subsequent activation of injury-sensitive transcription factors, thus attenuating the expression of stress-inducible proteins such as HO-1.
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PMID:Effect of nitric oxide on shock-induced hepatic heme oxygenase-1 expression in the rat. 1128 57

S-allylmercaptocysteine is one of the water-soluble organosulfur compounds in ethanol extracts of garlic (Allium sativum L.). We had demonstrated earlier that treatment with S-allylmercaptocysteine before acetaminophen administration protects mice against acetaminophen-induced hepatotoxicity. In this study, we examined the therapeutic effect of S-allylmercaptocysteine treatment after acetaminophen administration. A single dose of S-allylmercaptocysteine (200 mg/kg, p.o.) to mice 0.5 h after acetaminophen administration (500 mg/kg, p.o.) significantly suppressed both the increase in plasma alanine aminotransferase activity and the hepatic necrosis, and also reduced acetaminophen-induced mortality from 43% to 0%. These data indicate that S-allylmercaptocysteine is useful as an antidote for acetaminophen overdose. S-allylmercaptocysteine significantly suppressed hepatic cytochrome P450 2E1 (CYP2E1) activity and induction of inducible 70-kDa heat shock protein, a marker of acetaminophen arylation of protein. These results suggest that S-allylmercaptocysteine exerts its protective effect by inhibition of CYP2E1 activity, which leads to the suppression of acetaminophen arylation of hepatic protein.
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PMID:Therapeutic effect of S-allylmercaptocysteine on acetaminophen-induced liver injury in mice. 1175 51

We investigated whether longer-term cortisol exposure modified hepatic glucocorticoid receptor (GR) status and tissue responsiveness to cortisol stimulation in rainbow trout. Fish were given intraperitoneal implants of cortisol (50mg/kg body mass) and this led to elevated plasma cortisol levels mimicking chronically stressed salmonids. There was significantly higher hepatic GR mRNA abundance, despite a drop in GR protein content in the liver of cortisol-treated fish. The tissue responsiveness to cortisol stimulation was apparent from the higher plasma glucose concentration and liver glycogen content. Also, the higher phosphoenolpyruvate carboxykinase (PEPCK) mRNA abundance, a key glucocorticoid-responsive gene, by cortisol suggests activation of the GR signalling pathway. There was no significant effect of cortisol treatment on liver PEPCK, alanine aminotransferase, aspartate aminotransferase, and lactate dehydrogenase activities compared to the sham fish. The higher heat shock protein (hsp) 90 mRNA abundance and a corresponding elevation in this protein and constitutive hsp70 (hsc70) protein content in the cortisol-treated fish reflects a role for glucocorticoids in the hepatic stress response process. Taken together, the molecular and biochemical responses evident in the liver of trout imply changes favouring tissue responsiveness to glucocorticoids and may be a mechanism to offset GR protein downregulation evident with chronic cortisol stimulation in rainbow trout.
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PMID:Cortisol treatment affects glucocorticoid receptor and glucocorticoid-responsive genes in the liver of rainbow trout. 1281 73

The aim of the present study was to assess the contribution of the level of expression of heat shock protein 25 (HSP25), 60 (HSP60), 70 (HSC70) and 70i (HSP70i) in mouse livers after a lethal dose of acetaminophen (APAP) to their survival. We examined changes in survival ratio, plasma APAP level and alanine aminotransferase (ALT) activity, and hepatic reduced glutathione (GSH), HSP25, HSP60, HSC70 and HSP70i levels following treatment of mice with APAP (500 mg/kg, p.o.). The plasma APAP level increased rapidly, and reached a maximum 0.5 h after APAP treatment. Hepatic GSH decreased rapidly, and was almost completely depleted 1 h after APAP treatment. Plasma ALT activity, an index of liver injury, significantly increased from 3 h onwards after APAP treatment. The survival ratios 9 h, 24 h and 48 h after APAP treatment were 96%, 38% and 36%, respectively. We found a remarkable difference in the patterns of hepatic HSP25 and HSP70i induction in mice that survived after APAP treatment. HSP70i levels increased from 1 h onwards after APAP treatment in a time-dependent manner, and reached a maximum at 9 h. In contrast, HSP25 could be detected just 24 h after APAP treatment, and maximal accumulation was observed at 48 h. Other HSPs examined were unchanged. Notably, the survival ratio dropped by only 2% after HSP25 expression. Recently, a novel role for HSP25 as an anti-inflammatory factor was suggested. We have already shown that 48-h treatment with APAP induces severe centrilobular necrosis with inflammatory cell infiltration in mouse livers. Taken together, the level of expression of hepatic HSP25 may be a crucial determinant of the fate of mice exposed to APAP insult.
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PMID:Potential roles of hepatic heat shock protein 25 and 70i in protection of mice against acetaminophen-induced liver injury. 1501 Feb 65

Carbon tetrachloride (CCl4) induces liver damage, apparently through the formation of free-radical metabolites. Molecular chaperones such as heat shock protein (Hsp) of 70 kDa have been found to protect cells from various stresses. We previously found that cytosolic chaperone pairs of the Hsp70 family and their DnaJ homolog cochaperones prevent nitric oxide-mediated apoptosis and heat-induced cell death. Expression of cytosolic chaperones, including Hsp70; heat shock cognate (Hsc) 70; and DnaJ homologs dj1 (DjB1/Hsp40/hdj-1), dj2 (DjA1/HSDJ/hdj-2), dj3 (DjA2), and dj4 (DjA4), in the liver of CCl4-treated rats was analyzed. Messenger ribonucleic acids for all these chaperones were markedly induced 3-12 hours after CCl4 treatment with a maximum at 6 hours. Hsp70 and dj1 proteins were markedly induced at 6-24 hours with a maximum at 12 hours, whereas dj2 and dj4 were moderately induced at around 12 hours. Hsc70 was weakly induced after treatment, and dj3 was little induced. To better understand the significance of the induction of chaperones, the effect of preinduction of chaperones on CCl4-induced liver damage was analyzed. When chaperones were preinduced in the liver by heat treatment, increase in serum alanine aminotransferase activity after CCl4 treatment was significantly attenuated. Hsp90, another major cytosolic chaperone, also was induced by heat treatment. On the other hand, Mn- and Cu/Zn-superoxide dismutase were not induced by heat treatment or by CCl4 treatment. These results suggest that cytosolic chaperones of Hsp70 and DnaJ families or Hsp90 (or both) are induced in CCl4-treated rat liver to protect the hepatocytes from the damage being inflicted.
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PMID:Induction of molecular chaperones in carbon tetrachloride-treated rat liver: implications in protection against liver damage. 1527 78

The effect of the inducible forms of 70 kDa heat shock protein (Hsp70i) on acetaminophen (APAP) hepatotoxicity was assessed in an Hsp70i knockout mouse model. Absence of the Hsp70i protein in liver was verified by monitoring Hsp levels in knockout and control mice after heat stress (41.5 degrees C water bath immersion for 30 min). Hsp70i knockout mice were more susceptible to APAP-induced hepatotoxicity than controls, as indicated by elevated serum alanine aminotransferase activities 24 and 48 h after the APAP dose. Increased APAP hepatotoxicity in knockout mice was verified by morphological evaluation of liver sections. The difference in toxic response to APAP between knockout and control strain mice could not be attributed to differences in APAP bioactivation, assessed by measurement of CYP2E1 and glutathione S-transferase activities, hepatic nonprotein sulfhydryl content, or covalent binding of reactive APAP metabolites to proteins. Pretreatment with transient hyperthermia to produce a general upregulation of Hsps resulted in decreased APAP hepatotoxicity in both the knockout and control strains. Among thermally-pretreated mice, hepatotoxicity of APAP was greater in the knockouts compared with the control strain. These observations suggest that increased Hsp70i expression in response to APAP acts to limit the extent of tissue injury. Results further suggest that other factors related to heat stress can also contribute to protection against APAP toxicity.
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PMID:Increased hepatotoxicity of acetaminophen in Hsp70i knockout mice. 1628 Jan 47

The administration of glutamine before experimental ischemia/reperfusion (I/R) has been shown to protect intestinal, pulmonary, and myocardial tissue by inducing heat shock proteins (HSP). However, it is not known whether glutamine is protective for all organs. We therefore tested whether pretreatment with glutamine reduces injury following hepatic I/R in rats. Male lean Zucker rats were pretreated with either glutamine (0.75 g/kg intraperitoneally, n = 6) or saline (n = 6), 24 and 6 hours before ischemia. Seventy percent of the liver was exposed to 75 minutes of warm ischemia followed by 24 hours reperfusion. Liver enzymes, histology, neutrophil accumulation, survival, and heat shock protein (HSP) 70 induction were examined. Glutamine administration did not reduce liver injury. In both groups, 5 of 6 animals survived 24 hours of reperfusion. There was no difference in serum transaminase levels with AST 15113 +/- 4336 U/L (glutamine) vs. 17695 +/- 8531 U/L (control, P > 0.05), and ALT 7763 +/- 2524 (glutamine) U/L vs. 5884 +/- 2063 U/L (control, P > 0.05). The degree of neutrophil accumulation and necrosis was not different between groups at 24 hours of reperfusion. Pretreatment did not result in HSP70 upregulation in any of the groups. Pretreatment with glutamine did not reduce hepatic ischemia/reperfusion injury. The lack of protection was associated with an absence of HSP70 upregulation prior to ischemia.
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PMID:Glutamine does not protect against hepatic warm ischemia/reperfusion injury in rats. 1645 56

Hydrogen sulfide (H(2)S) is an endogenously produced gaseous signaling molecule with diverse physiological activity. The potential protective effects of H(2)S have not been evaluated in the liver. The purpose of the current study was to investigate if H(2)S could afford hepatoprotection in a murine model of hepatic ischemia-reperfusion (I/R) injury. Hepatic injury was achieved by subjecting mice to 60 min of ischemia followed by 5 h of reperfusion. H(2)S donor (IK1001) or vehicle were administered 5 min before reperfusion. H(2)S attenuated the elevation in serum alanine aminotransferase (ALT) by 68.6% and aspartate aminotransferase (AST) by 70.8% compared with vehicle group. H(2)S-mediated cytoprotection was associated with an improved balance between reduced glutathione (GSH) vs. oxidized glutathione (GSSG), an attenuated formation of lipid hydroperoxides, and an increased expression of thioredoxin-1 (Trx-1). Furthermore, H(2)S inhibited the progression of apoptosis after I/R injury by increasing the protein expression of heat shock protein (HSP-90) and Bcl-2. These results indicate that H(2)S protects the murine liver against I/R injury through an upregulation of intracellular antioxidant and antiapoptotic signaling pathways.
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PMID:Hydrogen sulfide attenuates hepatic ischemia-reperfusion injury: role of antioxidant and antiapoptotic signaling. 1856 6

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