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)

Organ Weight, hematologic and blood chemistry values were determined to establish reference values in the female ferret. Organ weight per kg body weight was calculated for various organs. Body surface area (BSA) was also determined by the direct method, and K values (constant) were calculated. The K value was 3.48 in the Dubois and Dubois equation, and 9.69 in the Meeh-Rubner equation. Blood samples were used to record 10 hematologic and 57 serum (plasma) chemistry values, and 7 immunological parameters. Among hematologic values, values whose coefficient of variation (cv) exceeded 30% were RBC, WBC and PLT. In blood chemistry, the CV of gamma-G, UA, ZTT, GPT, gamma-GTP, MAO, ALD and IgG exceeded 30%. In the total amino acid analysis, only the CV of TAU exceeded 30%. Electrophoretograms of amylase and CPK isozyme were quite different from those of humans. Although 1-MEHIS, 3-MEHIS and CAR have not been detected or are present in trace amounts in human plasma, concrete values were detected in female ferret plasma. Hematologic and serum chemistry values were in general agreement with normal values seen in cats and dogs. However, the alpha 1-G percentage, and ALP and amylase activities were lower than the corresponding values in cats and dogs. The RBC count, RET-C percentage and LDH activities were higher than in cats and dogs. Since there have been no comprehensive articles on reference values for the female ferret, the present report contributes to studies that involve this animal as an experimental model.
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PMID:Reference values for organ weight, hematology and serum chemistry in the female ferret (Mustela putrius furo). 851 87

Reactive oxygen species such as nitric oxide (NO) and/or superoxide have been proposed as mediators in the pathogenesis of reperfusion injury and acute endotoxemia. The purpose of this study was to examine the role of NO in a model of hepatic ischemia-reperfusion with endotoxemia (I/R + LPS). Rats subjected to 30 min of partial hepatic ischemia followed by reperfusion and LPS (Salmonella enteritidis, 1 mg/kg, i.v.,) administration, exhibited a marked, time-dependent increase in plasma alanine aminotransferase (ALT) levels compared to sham controls. An abrupt increase in liver nitrite/nitrate levels was also observed in I/R + LPS rats in association with the increases in plasma ALT. Although liver NO production in I/R + LPS rats increased with time, exacerbation of liver damage was not evident. Administration of L-NAME decreased NO production in plasma and liver but did not affect the liver damage in rats subjected to I/R + LPS. Superoxide levels in livers from I/R + LPS rats increased by threefold after 90 min reperfusion as compared to sham controls but dropped to control levels after 4 hr. There was a significant increase in neutrophils in liver lobes subjected to ischemia-reperfusion and LPS compared to sham controls and to non-ischemic lobes which received LPS. The number of neutrophils in the liver increased further in rats given L-NAME. These results suggest that the progressive injury seen in livers of I/R + LPS rats was possibly due to NO interaction with superoxide forming another reactive oxygen species such as peroxynitrite. However, inhibition of NO synthesis did not ameliorate liver damage, possibly because of an increase in tissue accumulation of activated polymorphonuclear leukocytes (PMN). Lung NO production increased in I/R + LPS rats after 4 hr reperfusion compared to sham controls. Prior administration of L-NAME did not prevent a significant rise in pulmonary NO generation (P < 0.05 at 90 min and 4 hr, compared to sham controls). This unexpected rise of pulmonary NO in the L-NAME treated group of rats was associated with a tendency for increased PMN accumulation (based on myeloperoxidase data) and superoxide generation. The results suggest that endogenous NO protected against excessive neutrophil infiltration in the lung in this model of hepatic ischemia-reperfusion and endotoxemia, and the use of L-NAME, a nonselective NOS inhibitor, may aggravate lung injury.
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PMID:Role of nitric oxide in hepatic ischemia-reperfusion with endotoxemia. 884 95

The vasodilator nitric oxide (NO) is involved in the regulation of systemic blood pressure and local organ blood flow. Inhibitors of the constitutively expressed nitric oxide synthase in endothelial cells (eNOS), e.g., Nomega-nitro-L-arginine methyl ester hydrochloride (L-NAME), aggravated liver injury in a variety of models. On the other hand, inhibitors of the inducible NOS (iNOS), e.g., 2-aminoethyl-isothiourea (AET), were found to be beneficial during endotoxemia. The aim of this investigation was to study the effect of AET compared with L-NAME on liver microvascular blood flow and injury in more complex models with multiple insults, i.e., ischemia (20 min)-reperfusion (8 h) in combination with .5 mg/kg endotoxin (IRE). Male Fisher rats were treated with 10 mg/kg AET or L-NAME and subjected to IRE. At 8 h, liver injury (plasma ALT: 1320+/-164 U/L) was significantly increased in AET-treated (5,018+/-1,379 U/L) and L-NAME-treated groups (2,429+/-228 U/L). Each inhibitor attenuated microvascular blood flow (assessed by laser Doppler flowmetry) to a similar degree. In striking contrast, AET completely reversed the endotoxin-induced impairment of the microvascular blood flow and significantly protected against an endotoxin-induced liver injury (plasma ALT: 3,007+/-268 U/L (ET); 460+/-39 U/L (ET+AET)). Infusion of endothelin-1 reduced microvascular blood flow by 50-60% and caused liver injury. Our data demonstrated that an inhibitor of eNOS (L-NAME) has a consistent detrimental effect on liver injury during ischemia-reperfusion and endotoxemia mainly because it can cause additional ischemia by reducing the microvascular blood flow. However, selective inhibitors of iNOS (AET) can impair hepatic blood flow and aggravate the injury or improve blood flow and attenuate organ injury depending on the experimental model. These results suggest that iNOS inhibitors may not be universally beneficial and should be tested in a variety of experimental models of sepsis/endotoxemia before used in clinical settings.
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PMID:Differential effect of 2-aminoethyl-isothiourea, an inhibitor of the inducible nitric oxide synthase, on microvascular blood flow and organ injury in models of hepatic ischemia-reperfusion and endotoxemia. 968 86

The aim of this work was to determine if the inhibition or stimulation of NO synthesis modulates liver damage induced by the chronic administration of CCl4. CCl4 was administered three times a week for 8 weeks to male Wistar rats treated simultaneously with N omega-nitro-L-arginine methyl ester (L-NAME, 100 mg/kg, p.o., twice a day), aminoguanidine (AG, 4 g/L in the drinking water), or L-arginine (500 mg/kg, p.o., twice a day); appropriate controls were performed. Serum NO2- + NO3- increased in the groups treated with CCl4 and/or L-arginine, but the effect was prevented by either L-NAME or AG. In the liver, lipid peroxidation and collagen content increased, while glycogen content decreased in the CCl4-treated group (P < 0.05); L-NAME and AG accentuated these effects. Serum enzyme activities of alanine aminotransferase (ALT), alkaline phosphatase, and gamma-glutamyl transpeptidase (gamma-GTP) and bilirubin content increased about 2-, 3-, 2-, and 6-fold, respectively, after CCl4 intoxication (P < 0.05); L-NAME or AG cotreatment further increased the enzyme activities (P < 0.05). L-Arginine treatment protected the liver partially from the elevation of collagen, bilirubins, and alkaline phosphatase and from glycogen depletion induced by CCl4 intoxication (P < 0.05), but showed no significant effect on ALT, gamma-GTP, or lipid peroxidation. These results suggest that NO protects the liver against oxidative injury, because NO inhibition by L-NAME or AG increased lipid peroxidation and the other markers of liver injury studied herein.
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PMID:Nitric oxide protection of rat liver from lipid peroxidation, collagen accumulation, and liver damage induced by carbon tetrachloride. 975 Oct 83

In the present work, the relation of cytoprotection of neurotensin to nitric oxide (NO), cGMP and cAMP was investigated in primary cultured mouse hepatocytes. The results are as follows: After administration of acetaminophen (20 mmol/L) to the medium, the leakage of GOT and GPT increased significantly. Pretreatment with neurotensin (10(-7) mol/L) before acetaminophen reduced the leakage of GOT and GPT. No synthase inhibitor, L-NAME, completely blocked the cytoprotective effect of neurotensin. Neurotensin could enhance the intracellular cGMP content, but had no effect on cAMP content. These results indicate that the protective effect of neurotensin on hepatocytes is mediated by NO probably by enhancing intracellular cGMP content.
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PMID:[Involvement of nitric oxide and cGMP in the protective effect of neurotensin on hepatocytes]. 981 81

The aim of this paper was to determine if NO modulation would influence liver damage induced by 3 day-biliary obstruction. L-Arginine (500 mg kg-1, p.o. twice a day) or L-NAME (100 mg kg-1, p.o. twice a day) or both were administered to male Wistar rats subjected to bile duct ligation (BDL). In the liver, BDL doubled lipid peroxidation and depleted glycogen (P < 0.05), L-arginine completely prevented the former and partially the latter. Alkaline phosphatase, alanine aminotransferase and gamma-glutamyl transpeptidase serum enzyme activities increased (P < 0.05) by BDL, again L-arginine treatment partially, but significantly, prevented the elevation in these three markers of liver damage. Although L-NAME treatment failed to induce a change in any marker of liver injury studied herein, it abolished the beneficial effects of L-arginine, suggesting that these effects are probably mediated by NO synthesis stimulation.
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PMID:Liver damage induced by acute cholestasis in the rat is ameliorated partially by L-arginine. 982 59

The anti-inflammatory role of nitric oxide (NO) was studied in a model of hepatic ischemia-reperfusion (I/R) in rats. Male Fischer rats were subjected to 30 min of no-flow ischemia of the left and median lobes of the liver, and animals were examined for a 4-h period of reperfusion. The animals were divided into the following groups: control-vehicle; I/R-vehicle; I/R-Nomega-nitro-L-arginine methyl ester (L-NAME, 10 mg/kg iv, 10 min before reperfusion); sham control-L-NAME, and I/R-S-nitroso-N-acetyl-penicillamine (SNAP, 25 micromol/kg iv, 10 min before reperfusion, followed by 20 micromol. kg-1. h-1 in 1.0 ml saline infused for 4 h). Results showed that mean arterial blood pressure was significantly increased in the sham control-L-NAME or I/R-L-NAME groups compared with either the I/R-vehicle or I/R-SNAP groups. However, cardiac index (CI) and stroke volume index (SVI) were markedly decreased, and systemic vascular resistance index (SVRI) was dramatically increased. Interestingly, the CI and SVI in rats treated with SNAP were markedly improved over that of the I/R group. Plasma nitrate and nitrite levels were significantly decreased in the I/R-L-NAME group; however, superoxide generation in the ischemic lobes and plasma alanine aminotransferase activity were higher compared with I/R-SNAP rats. The L-NAME-induced enhancement of hepatic injury in rats with I/R may be due in part to neutrophil infiltration, which was significantly increased compared with animals subjected to I/R or I/R-SNAP. The mechanism of L-NAME-enhanced neutrophil infiltration may be due to the fact that the ratios of P-selectin and intercellular adhesion molecule 1 (ICAM-1) mRNA to glyceraldehyde-3-phosphate dehydrogenase mRNA extracted from the ischemic lobes of I/R-L-NAME rats were significantly increased when compared with the I/R-SNAP group. These results suggest that 1) endogenous NO reduces the SVRI and permits an increased CI and SVI; 2) exogenous NO further improves CI and SVI; and 3) endogenous, but not exogenous, NO decreases P-selectin and ICAM-1 mRNA expression, thereby reducing polymorphonuclear neutrophil-dependent reperfusion tissue injury.
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PMID:NO modulates P-selectin and ICAM-1 mRNA expression and hemodynamic alterations in hepatic I/R. 984 19

This study was performed to determine whether ischemia/reperfusion (I/R) injury in rat liver results in alterations in endothelin receptor expression. Hepatic ischemia was produced in rats for 60 min followed by 6 or 24 h reperfusion. Portal inflow pressure was increased (7.38+/-0.60 mmHg) at 24 hours after reperfusion. Serum ALT increased significantly at both 6 and 24 h (6 h; 258.3+/-74.3, 24 h; 243.1+/-74.8 IU/L). Portal vascular response to an endothelin-B receptor agonist (IRL 1620) was significantly increased in the I/R livers compared to control and this was potentiated by L-NAME. IRL 1620 also caused LDH release from I/R livers but not controls. LDH release after IRL 1620 in I/R livers correlated with increased portal pressure response. To determine whether the altered response might be the result of altered endothelin receptor expression, livers were harvested after reperfusion and total endothelin binding sites were determined by competitive binding with ET-1. Proportion of endothelin receptor subtypes (ET(A)/ET(B)) was determined using the ET(A) antagonist BQ-610 (1 microM) and ET(B) agonist IRL-1620 (100 nM). There were no significant changes in Kd but Bmax for endothelin-1 was decreased in I/R group especially non-ischemic lobe at 24 h. ET(A) receptors were significantly decreased whereas ET(B) receptors were increased. These changes were more pronounced at 24 h after reperfusion than at 6 h. Interestingly, the changes in ET receptors was observed identically both in ischemic and non-ischemic lobes (ischemic lobe ET(A) 41.9%, ET(B) 51%; non-ischemic lobe ET(A) 38.8%, ET(B) 49.5%). These results indicate that the major functional endothelin receptor subtype upregulated in I/R is the ET(B) receptor and that this upregulation may contribute to microvascular dysregulation and hepatic injury.
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PMID:Altered endothelin receptor subtype expression in hepatic injury after ischemia/reperfusion. 1063 73

In the present study, we examined the role of nitric oxide (NO) in early-response cytokine production by using a rat model of hepatic ischemia-reperfusion (HI/R). The left and median lobes of the liver were subjected to 30 min of ischemia, followed by 4 h of reperfusion. Group I and II rats were sham-operated controls that received saline (vehicle) or N(W)-nitro-L-arginine methylester (L-NAME) (10 mg/kg, iv); group III and IV rats were subjected to HI/R and received vehicle or L-NAME (10 mg/kg, iv, 10 min before reperfusion), respectively. Administration of L-NAME to rats subjected to I/R resulted in a fourfold decrease in plasma NO levels, accompanied by a marked increase of plasma alanine aminotransferase (ALT) activity relative to group III. These changes in group IV were associated with elevation of superoxide generation in ischemic liver lobes by 2.1-fold and circulating leukocyte number by 1.42-fold, compared with group III. Normalized for expression of glyceraldehyde-3-phosphate dehydrogenase (GAPDH) messenger ribonucleic acid (mRNA), expression of tumor necrosis factor-alpha (TNF-alpha) and interleukin-1beta (IL-1beta) mRNA in ischemic liver of group IV was augmented by 207% and 175% compared with Group III. The expression of (iNOS) mRNA was also increased (223%) relative to group III. Moreover, in group IV, plasma TNF-alpha levels at 4 h of reperfusion and IL-1beta levels at 90 min and 4 h of reperfusion were significantly increased compared with group III. No statistically significant changes were observed between groups I and II in plasma ALT activity, plasma NO levels, circulating leukocyte counts, superoxide generation in the ischemic lobes of liver, and plasma TNF-a and IL-1beta concentrations. The observed enhancement of I/R injury by L-NAME is consistent with the hypothesis that endogenous NO down-regulates TNF-alpha and IL1beta generation, thereby decreasing HI/R injury.
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PMID:Role of endogenous nitric oxide in TNF-alpha and IL-1beta generation in hepatic ischemia-repefusion. 1071 79

Lipopolysaccharide (LPS)-induced endotoxemia produces nitric oxide (NO); however, the role of the NO during endotoxemia is still controversial. The aim of this study was to investigate a role of LPS-induced NO during the early phase of endotoxemia. Wistar rats were intraperitoneally injected with saline or LPS at various doses (0.001, 0.01, or 5 mg/kg), and intra-abdominal NO concentration was determined by chemiluminescence before and after LPS administration at indicated times (1, 2, 6, 10, and 18 h). Serum aspartate aminotransferase and alanine aminotransferase levels were determined and histological examination was performed 10 h after LPS administration to assess liver damage. N(G)-nitro-L-arginine-methyl ester (L-NAME), a nonselective inhibitor of NO synthase, was used to investigate the possible roles of NO during LPS-induced endotoxemia. The intra-abdominal NO concentration was elevated within 2 h and reached a maximal level at 10 h after low doses of LPS injection (0.001 and 0.01 mg/kg) while liver damage was not observed. After high-dose LPS (5 mg/kg) administration, liver damage was observed and intra-abdominal NO was elevated continuously until 18 h. A time course study revealed very similar patterns of intra-abdominal NO increase after the three different dose of LPS at each times points during the first 10 h. Pretreatment of L-NAME inhibited the intra-abdominal NO release and aggravated the liver damage caused by low doses (0.001 and 0.01 mg/kg) of LPS as well as high dose (5 mg/kg) of LPS. Therefore, NO, released during the first 10 h after LPS injection, may play a cytoprotective role in the liver.
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PMID:The cytoprotective role of lipopolysaccharide-induced nitric oxide against liver damage during early phase of endotoxemia in rats. 1094 71

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