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)

It is well revealed that activation of macrophages stimulated by endotoxin resulted in induction of nitric oxide synthase which catalyze nitric oxide (NO) formation from L-arginine. Consequently, blood concentrations of NO2-/NO3- (NOx-) are shown to increase. We studied on pharmaco/toxicokinetics of NOx- in serum and principal organs in Wistar male rats after i.p. administrations of LPS and NaNO3. The serum levels of NOx- at 1 h and 6 h after nitrate administration (10 mg/kg, i.p.) were 240 and 120 microM, respectively. Tissue levels of NOx- in lung, liver and kidneys were ca.1/2 of the serum level. Those levels in spleen and brain were ca.1/4 and 1/10 of the serum level, respectively. The correlation of NOx- levels in serum and these 5 organ tissues between 1 h and 6 h after administration of nitrate was r = 0.992 suggesting no specific accumulation of NOx- in these organs. The serum level of NOx- at 18 h after LPS treatment (1 mg/kg, i.p.) was 430 microM. The correlation of NOx- levels in serum and 5 organ tissues between LPS and nitrate administrations was shown to be r = 0.851. NOx- levels of serum, lung, kidneys and brain showed good correlation but liver and spleen showed out of the correlation. The liver tissue level of NOx- after LPS treatment was low compared with the expected value from the serum level. The reason may be explained partially by the liver weight increase and the liver toxicity with increased GPT and gamma-GT levels due to LPS. Contrary to this, NOx- level of spleen tissue after LPS treatment was more than 2-fold compared with the expected value from the serum level suggesting NO formation in the spleen. This was supported by the markedly high concentration (73.2 nmol/g tissue) of NO2- in the spleen tissue. NO2- levels in lung (34.5 nmol/g tissue) and brain (14.3) were also found to be significantly high after stimulation with LPS suggesting NO formation in these organs. Increased formation of NO2- in these organs by LPS stimulation suggests the formation of active nitrogen oxides such as N2O3 which is an effective nitrosating agent in non-acidic conditions in vivo.
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PMID:[NO2-/NO3- levels in blood and principal organs in rats treated with lipopolysaccharide]. 1009 17

Liver damage induced by lipopolysaccharide (LPS) in actinomycin D-sensitized mice was initiated by a Fas/CD95-independent apoptotic process that produced DNA fragmentation in hepatocytes followed by an increase of plasma ALT. The metabolic inhibitor actinomycin D blocked most of the LPS-induced increase of plasma nitrite/nitrate levels, as did administration of a nitric oxide synthase inhibitor, N(G)-monomethyl-l-arginine, which also promoted LPS-induced apoptotic liver damage. Administration of nitric oxide donors (hydroxylamine, S-nitroso-N-acetylpenicillamine or 2, 2'-(hydroxynitrosohydrazino)bis-ethanamine) resulted in elevation of the plasma nitrite/nitrate level and amelioration of actinomycin D/LPS-induced apoptotic liver damage. The protective effect of nitric oxide against apoptotic liver damage was partially reproduced by a membrane-permeable analog of cyclic GMP. On the other hand, treatment with the soluble guanylate cyclase inhibitor LY83583 overcame the protective effect of nitric oxide against apoptotic liver damage. These results suggest that nitric oxide may regulate programmed cell death in the mouse liver and that induction of genes, including inducible nitric oxide synthase, plays an important role in protecting the liver against LPS-induced apoptotic damage. This effect appears to be mediated, at least in part, via the soluble guanylate pathway.
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PMID:Nitric oxide ameliorates actinomycin D/endotoxin-induced apoptotic liver failure in mice. 1042 31

Axenic mycelia of the ectomycorrhizal basidiomycete, Suillus bovinus, were grown in liquid media under continuous aeration with compressed air at 25 degrees C in darkness. Provided with glucose as the only carbohydrate source, they produced similar amounts of dry weight with ammonia, with nitrate or with alanine, 60-80% more with glutamate or glutamine, but about 35% less with urea as the respectively only exogenous nitrogen source. In crude extracts of cells from NH4(+)-cultures, NADH-dependent glutamate dehydrogenase exhibited high aminating (688 nmol x mg protein(-1) x min(-1)) and low deaminating (21 nmol x mg protein(-1) x min(-1)) activities. Its Km-values for 2-oxoglutarate and for glutamate were 1.43 mM and 23.99 mM, respectively. pH-optimum for amination was about 7.2, that for deamination about 9.3. Glutamine synthetase activity was comparatively low (59 nmol x mg protein(-1) x min(-1)). Its affinity for glutamate was poor (Km = 23.7 mM), while that for the NH4+ replacing NH2OH was high (Km = 0.19 mM). pH-optimum was found at 7.0. Glutamate synthase (= GOGAT) revealed similar low activity (62 nmol x mg protein(-1) x min(-1)), Km-values for glutamine and for 2-oxoglutarate of 2.82 mM and 0.28 mM, respectively, and pH-optimum around 8.0. Aspartate transaminase (= GOT) exhibited similar affinities for aspartate (Km = 2.55 mM) and for glutamate (Km = 3.13 mM), but clearly different Km-values for 2-oxoglutarate (1.46 mM) and for oxaloacetate (0.13 mM). Activity at optimum pH of about 8.0 was 506 nmol x mg protein(-1) x min(-1) for aspartate conversion, but only 39 nmol x mg protein(-1) x min(-1) at optimum pH of about 7.0 for glutamate conversion. Activity (599 nmol x mg protein(-1) x min(-1)), substrate affinities (Km for alanine = 6.30 mM, for 2-oxoglutarate = 0.45 mM) and pH-optimum (6.5-7.5) proved alanine transaminase (= GPT) also important in distribution of intracellular nitrogen. There was comparatively low activity of the obviously constitutive enzyme, urease, (42 nmol x mg protein(-1) x min(-1)) whose substrate affinity was rather high (Km = 0.56 mM). Nitrate reductase proved substrate induced; activity could only be measured after exposure of the mycelia to exogenous nitrate. Routes of entry of exogenous nitrogen and tentative significance of the various enzymes in cell metabolism are discussed.
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PMID:Investigations into enzymes of nitrogen metabolism of the ectomycorrhizal basidiomycete, Suillus bovinus. 1081 9

Aminoguanidine is an inhibitor of the inducible form of nitric oxide synthase (iNOS). In the present study, the effect of aminoguanidine on concanavalin A-induced hepatitis was examined. Treatment of mice with concanavalin A (10 mg/kg, i.v.) induced interferon-gamma and iNOS mRNA expression in the liver before the elevation of plasma alanine aminotransferase activity. Immunohistochemical study showed the induction of iNOS protein expression in the area of necrosis. Aminoguanidine (1, 3 and 10 mg/kg, i.p.) inhibited the concanavalin A-induced elevation of alanine aminotransferase activity. Aminoguanidine (10 mg/kg, i.p.) did not inhibit concanavalin A-induced interleukin-2, interferon-gamma, tumor necrosis factor-alpha or iNOS mRNA expression in the liver. The plasma nitrite/nitrate level was elevated at 6 and 24 h after concanavalin A treatment. The elevation of nitrite/nitrate was inhibited by aminoguanidine (10 mg/kg, i.p.). From these results, we conclude that nitric oxide formed by iNOS may be involved in the development of concanavalin A-induced hepatitis.
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PMID:Aminoguanidine prevents concanavalin A-induced hepatitis in mice. 1082 65

Oxidants have been shown to be involved in alcohol-induced liver injury. Moreover, 2-phenyl-1,2-benzisoselenazole-3(2H)-one (ebselen), an organoselenium compound and glutathione peroxidase mimic, decreases oxidative stress and protects against stroke clinically. This study was designed to test the hypothesis that ebselen protects against early alcohol-induced liver injury in rats. Male Wistar rats were fed high-fat liquid diets with or without ethanol (10-16 g/kg/d) continuously for up to 4 weeks using the intragastric enteral feeding protocol developed by Tsukamoto and French. Ebselen (50 mg/kg twice daily, intragastrically) or vehicle (1% tylose) was administered throughout the experiment. Mean urine ethanol concentrations were not significantly different between treatment groups, and ebselen did not affect body weight gains or cyclic patterns of ethanol concentrations in urine. After 4 weeks, serum ALT levels were increased significantly about 4-fold over control values (37 +/- 5 IU/l) by enteral ethanol (112 +/- 7 IU/l); ebselen blunted this increase significantly (61 +/- 8 IU/l). Enteral ethanol also caused severe fatty accumulation, mild inflammation, and necrosis in the liver (pathology score: 4.3 +/- 0.3). In contrast, these pathological changes were blunted significantly by ebselen (pathology score: 2.5 +/- 0.4). While there were no significant effects of either ethanol or ebselen on glutathione peroxidase activity in serum or liver tissue, ebselen blocked the increase in serum nitrate/nitrite caused by ethanol. Furthermore, ethanol increased the activity of NF-kappaB over 5-fold, the number of infiltrating neutrophils 4-fold, and the accumulation of 4-hydroxynonenal over 5-fold. Ebselen blunted all of these effects significantly. These results indicate that ebselen prevents early alcohol-induced liver injury, most likely by preventing oxidative stress, which decreases inflammation.
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PMID:Ebselen prevents early alcohol-induced liver injury in rats. 1118 96

The levels of plasma nitric oxide (NO), endothelin-1 (ET-1) and ALT in the patients with chronic hepatitis B and active cirrhosis and the correlation among them were observed and analyzed. NO3- was restored by using cadmium column assay and NO2- measured by heavy nitrogen assay. The primitive NO3- and total restored NO2- (NO3-/NO2-) in plasma of the patients with chronic hepatitis and cirrhosis. Plasma ET-1 and ALT levels were determined by using radioimmunological assay and Lai's assay, respectively. Compared with normal control group, the plasma levels of NO2-/NO2- and ET-1 in the patients with chronic active hepatitis and active cirrhosis were significantly increased (P < 0.05-0.01). There was a positive correlation between NO and ALT, and ET-1 and ALT in the patients with chronic active hepatitis and active cirrhosis respectively. It was suggested that elevation of both NO and ET-1 levels were closely related with injury severity of liver function.
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PMID:Study on the correlation of plasma NO, ET-1 and ALT in the patients with chronic hepatitis and cirrhosis. 1121 47

Although intraportal infusion of adenosine suppressed the oxidative stress caused by activated neutrophils and attenuated ischemia-reperfusion injury of canine liver, high doses of adenosine elicit systemic hypotension. The present work demonstrates that combined use of low doses of adenosine and amrinone, a phosphodiesterase inhibitor, strongly inhibited reperfusion injury of the liver without eliciting hypotension. After 45 min ischemia followed by 60 min reperfusion of rat liver, low doses of adenosine and amrinone were administrated intraportally, resulting in significantly increased hepatic levels of cGMP, cAMP, nitrite plus nitrate in plasma, and decreased alanine aminotransferase in plasma without changing hemodynamics. Thus, intraportal administration of low doses of adenosine and amrinone increased the cyclic nucleotides, thereby improved microcirculation and attenuated reperfusion injury of the liver.
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PMID:Combined use of adenosine and amrinone inhibits reperfusion injury of rat liver. 1147 70

We recently reported that nitrotyrosine and acetaminophen (APAP)-cysteine protein adducts colocalize in the hepatic centrilobular cells following a toxic dose of APAP to mice. Whereas APAP-adducts are formed by reaction of the metabolite N-acetyl-p-benzoquinone imine with cysteine, nitrotyrosine residues are formed by reaction of tyrosine with peroxynitrite. Peroxynitrite is formed from nitric oxide (NO) and superoxide. This manuscript examines APAP (300 mg/kg) hepatotoxicity in mice lacking inducible nitric oxide synthase activity (NOS2 null or knockout mice; C57BL/6-Nos2(tm1Lau)) and in the wildtype mice. In a time course the ALT levels in the exposed NOS2 null mice were approximately 50% of the wildtype mice; however, histological examination of liver sections indicated similar levels of centrilobular hepatic necrosis in both wild-type and NOS2 null mice. Serum nitrate plus nitrite levels (NO synthesis) were identical in saline-treated NOS2 null and wild-type mice (53 +/- 2 microM). APAP increased NO synthesis in wild-type mice only. The increases paralleled the increases in ALT levels with peak levels of serum nitrate plus nitrite at 6 h (168 +/- 27 microM). In wild-type mice hepatic tyrosine nitration was greatly increased relative to saline treated controls. Tyrosine nitration increased in NOS2 null mice also, but the increase was much less. APAP increased hepatic malonaldehyde levels (lipid peroxidation) in NOS2 null mice only. The results suggest the presence of multiple pathways to APAP-mediated hepatic necrosis, one via nitrotyrosine, as in the wild-type mice, and another that is not dependent upon inducible nitric oxide synthase activity, but which may involve increased superoxide.
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PMID:Acetaminophen-induced hepatotoxicity in mice lacking inducible nitric oxide synthase activity. 1158 58

We recently reported that following a toxic dose of acetaminophen to mice, tyrosine nitration occurs in the protein of cells that become necrotic. Nitration of tyrosine is by peroxynitrite, a species formed from nitric oxide (NO) and superoxide. In this manuscript we studied the effects of the NO synthase inhibitors N-monomethyl-l-arginine (l-NMMA), N-nitro-l-arginine methyl ester (NAME), l-N-(1-iminoethyl)lysine (l-NIL), and aminoguanidine on acetaminophen hepatotoxicity. Acetaminophen (300 mg/kg) increased serum nitrate/nitrite and alanine aminotransferase (ALT) levels, indicating increased NO synthesis and liver necrosis, respectively. None of the NO synthase inhibitors reduced serum ALT levels. In fact, l-NMMA, l-NIL, and aminoguanidine significantly augmented acetaminophen hepatotoxicity at 4 h. A detailed time course indicated that aminoguanidine (15 mg/kg at 0 h and 15 mg/kg at 2 h) significantly increased serum ALT levels over that for acetaminophen alone at 2 and 4 h; however, at 6 and 8 h serum ALT levels in the two groups were identical. At 2 h following acetaminophen plus aminoguanidine NO synthesis was significantly increased; however, at 4, 6, and 8 h NO synthesis was significantly decreased. Aminoguanidine also decreased acetaminophen-induced nitration of tyrosine. Acetaminophen alone did not induce lipid peroxidation, but acetaminophen plus aminoguanidine significantly increased hepatic lipid peroxidation (malondialdehyde levels) at 2, 4, and 6 h. These data are consistent with NO having a critical role in controlling superoxide-mediated lipid peroxidation in acetaminophen hepatotoxicity. Thus, acetaminophen hepatotoxicity may be mediated by either lipid peroxidation or by peroxynitrite.
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PMID:Effect of inhibitors of nitric oxide synthase on acetaminophen-induced hepatotoxicity in mice. 1189 Jul 40

The effects of betaine or taurine on hepatotoxicity induced by lipopolysaccharide (LPS) were examined in adult male SD rats. Rats were provided with drinking water containing either 1% betaine or taurine for 2 weeks prior to challenge with LPS (5 mg/kg, iv). Supplementation with betaine or taurine protected the animals from induction of LPS hepatotoxicity as measured by changes in aspartate aminotransferase (AST), alanine aminotransferase (ALT) activities and total bilirubin levels in serum, and hepatic glutathione contents. LPS challenge increased serum TNF-alpha and nitrate/nitrite in rats, which were reduced by betaine or taurine intake. Taurine depletion induced by supply of drinking water containing 3% beta-alanine for 7 days did not enhance the LPS-induced hepatic damage or the decrease in hepatic glutathione level. The results indicate that intake of betaine or taurine attenuates the LPS-induced hepatotoxicity resulting from activation of Kupffer cells.
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PMID:Attenuation of bacterial lipopolysaccharide-induced hepatotoxicity by betaine or taurine in rats. 1189 13

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