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)

The purposes of this study were to clarify the role of neutrophilic proteases in the pathogenesis of hepatic ischemia/reperfusion injury and to determine whether urinary trypsin inhibitor (UTI) pretreatment attenuated liver ischemia/reperfusion injury in rats. Livers from male Sprague-Dawley rats were subjected to 90 min of no-flow warm ischemia followed by 120 min of reperfusion. Rats were divided into a UTI group and a control group. In the control group, 120-min reperfusion of the liver produced a significant increase in myeloperoxidase activity, a significant decrease in ATP and energy charge, and a marked increase in the serum aspartate aminotransferase, alanine aminotransferase, and lactic dehydrogenase levels. In the UTI group, the myeloperoxidase activity was significantly attenuated (P < 0.01), ATP and energy charge were significantly improved (P < 0.01 and P < 0.05, respectively), and the elevation in serum aspartate aminotransferase, alanine aminotransferase, and lactic dehydrogenase was also markedly suppressed (P < 0.05, P < 0.01, and P < 0.05, respectively) compared with the control group. Sections through the livers of control rats showed severe hepatocyte necrosis with neutrophil infiltration. In the UTI group, there was slight congestion and hepatocyte necrosis. The survival rate after 90-min liver ischemia was significantly improved compared with that in the control group (P < 0.05). The results of this study suggest that pretreatment with UTI significantly attenuates liver reperfusion injury, perhaps by inhibiting neutrophil proteases.
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PMID:Effect of protease inhibitor on ischemia/reperfusion injury of the rat liver. 827 98

The roles of neutrophil Mac-1 (CD11b/18) adhesion molecule, TNF-alpha and IFN-gamma in hepatic warm ischemia-reperfusion injury (IRI) were investigated with a newly established mouse model. Blood supply to the left lateral and the median lobe of the liver was interrupted with an atraumatic clip for 50 minutes. From 1 hour to 24 hours after reperfusion, TNF-alpha in the ischemic liver tissue was detected. IFN-gamma was not detected in ischemic liver tissue and blood. Pretreatment with anti-mouse Mac-1 monoclonal antibody (mAb) diminished the plasma GPT level, area of necrosis, and number of myeloperoxidase positive cells in ischemic liver lobe at 24 hours after reperfusion. Pretreatment with anti-mouse TNF-alpha or anti-mouse IFN-gamma mAb did not affected any parameters. From these results, Mac-1 was considered to play an important role in a hepatic warm IRI. However, TNF-alpha and IFN-gamma were not considered to play a pivotal role in the pathogenesis of the injury and in the regulation of the neutrophils adhesion via Mac-1.
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PMID:[Roles of Mac-1, endogenous TNF-alpha, and IFN-gamma in pathogenesis of hepatic warm ischemia-reperfusion injury]. 854 78

Activated polymorphonuclear neutrophils (PMNs) have been shown to be cytotoxic to rat hepatic parenchymal cells in vitro. This cytotoxicity could be observed without direct cell-cell contact, since the conditioned medium from PMNs activated with formyl-Met-Leu-Phe (fMLP) was effective in hepatocyte killing. To identify the toxic factor(s) released by PMNs, degranulation was induced by fMLP in PMNs pretreated with cytochalasin B. The contents released from the phagocytes were subjected to gel filtration on a Sephadex G-100 column. Resulting fractions were tested for cytotoxicity to isolated hepatocytes by using release of alanine aminotransferase as a marker for hepatocyte injury. Cytotoxicity was associated with fractions containing cathepsin G and elastase and not with other fractions, including those containing myeloperoxidase. The former two enzymes were purified to homogeneity with a carboxymethyl cellulose column. Each of these enzymes demonstrated concentration-dependent cytotoxicity to hepatocytes at concentrations > 2 microgram/mL. Moreover, they exhibited an additive cytotoxic effect. Effective concentrations for the combined cathepsin G and elastase in the incubation mixture were similar to the concentrations of these enzymes in PMN-conditioned medium that produced cytotoxicity to hepatocytes. Cytotoxicity of either purified enzyme or of conditioned medium could be prevented by plasma alpha-1-antitrypsin or soybean trypsin-chymotrypsin inhibitor, which were also potent inhibitors of enzymic activity of both cathepsin G and elastase. By contrast, the serine protease inhibitors, aprotinin and 4-(2-aminoethyl)-benzene-sulfonyl fluoride, were less effective in inhibiting cathepsin G and elastase activities as well as cytotoxicity caused by the purified proteases or PMN-conditioned medium. These results support the hypothesis that cathepsin G and elastase are important mediators of hepatic parenchymal cell killing produced by activated PMNs in vitro.
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PMID:Identification of factors from rat neutrophils responsible for cytotoxicity to isolated hepatocytes. 865 57

We investigated whether anticoagulation would diminish ischemia-reperfusion injury of the liver. Liver ischemia was induced in rats by occluding the portal vein for 30 min. Anticoagulant was injected intravenously 10 min before occlusion. Serum concentrations of cytokine-induced neutrophil chemoattractant (CINC) in untreated rats increased following reperfusion, reaching a peak at 6 hr, then decreasing gradually to control levels by 24 hr. CINC levels in rats pretreated with heparin (50 units/kg), AT-III (250 units/kg), or DEGR-Xa (10 mg/kg) peaked at 3 hr after reperfusion and declined to baseline within 12 hr; peak CINC values were significantly lower than in untreated control rats. Expression of CINC mRNA in liver tissue paralleled the CINC serum levels. Both myeloperoxidase activity and the number of neutrophils in the liver were decreased in the anticoagulant groups. In addition, significant correlations were observed between the maximum values of AST, ALT, and LDH versus the peak CINC levels following ischemia-reperfusion. These results indicate that the release of CINC after ischemia-reperfusion of the liver is mediated by activation of coagulation within the hepatic microcirculation.
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PMID:Anticoagulant pretreatment attenuates production of cytokine-induced neutrophil chemoattractant following ischemia-reperfusion of rat liver. 868 28

Oxygen free radicals have been shown to be implicated in ischemic tissue injury, and free radical-induced reactions may also play an important role in the pathophysiology of circulatory shock. The present study was designed to investigate the potential use of ascorbic acid as an exogenous antioxidant on the liver's recovery from hemorrhagic shock in situ. Rats (fasted overnight) were subjected to 60 min of hemorrhagic shock (HS) (mean arterial pressure = 40 mmHg) under pentobarbital anesthesia, followed by retransfusion of the shed blood. One-half of the animals (n = 6) were injected with 10 mg/kg of ascorbic acid prior to induction of shock, while untreated animals (n = 6) received the same volume of saline solution. in untreated animals, systemic plasma levels of malondialdehyde rose from 1.07 +/- .08 during normotension (NT) to 1.36 +/- .18* 60 min after resuscitation (RS), documenting oxygen free radical-induced lipid peroxidation. Accordingly, plasma levels of alanine aminotransferase (16.5 +/- 2.5; 34.9 +/- 12.3*; 105.8 +/- 68.7* U/L; NT/HS/RS) and ammonia (127 +/- 40; 532 +/- 160*; 304 +/- 244* micrograms/dL) rose significantly during the experiment. Hepatic ATP content of the liver fell from 4.8 +/- .83 to .56 +/- .27* after HS and recovered partially to 2.7 +/- 1.6* mumol/g after RS. Leukocyte infiltration in the liver, indicated by tissue levels of myeloperoxidase, remained constant during HS but rose during RS (37.9 +/- 18.5; 38.6 +/- 16.4; 81.4 +/- 30.7*, arbitrary units), thus documenting an inflammatory reaction after HS. In the ascorbic acid group, plasma levels of malondialdehyde were comparable to those of untreated animals after RS, as were enzyme concentrations and ammonia. No differences were observed with regard to the tissue concentrations of ATP or myeloperoxidase. Mean arterial blood pressure as well as liver tissue perfusion, as measured by Laser Doppler flowmetry, did not show significant differences between the groups. It was concluded that, although an effect of oxygen free radicals on liver tissue could be found during and after HS, treatment with ascorbic acid alone, in our model, failed to ameliorate the recovery of the animals upon resuscitation (values are mean +/- SD; *, p < .05 vs. NT; one-way ANOVA).
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PMID:No evidence for a protective effect of ascorbic acid on free radical generation and liver injury after hemorrhagic shock in rats. 872 88

1. We have investigated the effects of (i) several guanidines on the activity of the inducible isoform of nitric oxide (NO) synthase (iNOS) in murine cultured macrophages and rat aortic vascular smooth muscle cells (RASM); and (ii) 1-amino-2-hydroxy-guanidine, the most potent inhibitor of iNOS activity discovered, on haemodynamics, multiple organ (liver, renal, and pancreas) dysfunction and iNOS activity in rats with endotoxic shock. 2. The synthesized guanidine analogues caused concentration-dependent inhibitions of the increase in nitrite formation caused by lipopolysaccaride (LPS, 1 microgram ml-1) in J774.2 macrophages and RASM cells with the following rank order of potency: 1-amino-2-hydroxy-guanidine > 1-amino-2-methyl-guanidine > 1-amino-1-methyl-guanidine > 1-amino-1,2-dimethyl-guanidine. Interestingly, 1-amino-2-hydroxy-guanidine (IC50: J774.2, 68 microM; RASM, 114 microM) was more potent in inhibiting nitrite formation caused by LPS than NG-methyl-L-arginine, but less potent than aminoethyl-isothiourea. 3. In the anaesthetized rat, LPS caused a fall in mean arterial blood pressure (MAP) from 115 +/- 4 mmHg (time 0) to 98 +/- 5 mmHg at 2 h (P < 0.05, n = 10) and 69 +/- 5 mmHg at 6 h (P < 0.05, n = 10). The pressor effect of noradrenaline (NA, 1 mg kg-1, i.v.) was also significantly reduced at 1 to 6 h after LPS (vascular hyporeactivity). Treatment of LPS-rats with 1-amino-2-hydroxy-guanidine (10 mg kg-1, i.v. plus 10 mg kg-1 h-1 starting at 2 h after LPS) prevented the delayed hypotension and vascular hyporeactivity seen in LPS-rats. However, 1-amino-2-hydroxy-guanidine had no effect on either MAP or the pressor effect elicited by NA in rats infused with saline rather than LPS. 4. Endotoxaemia for 6 h caused a significant rise in the serum levels of aspartate or alanine aminotransferase (i.e. GOT or GPT) and bilirubin, and hence, liver dysfunction. Treatment of LPS-rats with 1-amino-2-hydroxy-guanidine significantly attenuated the liver dysfunction caused by LPS (P < 0.05, n = 10). Injection of LPS also caused a rapid (almost maximal at 2 h) increase in the serum levels of urea and creatinine, and hence, renal dysfunction. This renal dysfunction was not affected by 1-amino-2-hydroxy-guanidine (P > 0.05; n = 10). Endotoxaemia also caused a dysfunction of pancreas (rise in serum levels of lipase) as well as a metabolic acidosis (falls in PCO2, HCO3 and base excess). Both pancreatic dysfunction and metabolic acidosis were largely attenuated by treatment of LPS-rats with 1-amino-2-hydroxy-guanidine. In rats infused with saline rather than LPS, 1-amino-2-hydroxy-guanidine had no effect on liver, renal or pancreatic function (n = 4). 5. Endotoxaemia for 6 h resulted in a rise in the serum levels of nitrite (11.0 +/- 0.8 microM, P < 0.01, n = 10), which was significantly reduced by 1-amino-2-hydroxy-guanidine (6.5 +/- 0.7 microM, P < 0.05, n = 10). Endotoxaemia for 6 h was also associated with a significant increase in iNOS activity in lung and liver, which was significantly reduced in lung or liver homogenates obtained from LPS-rats treated with 1-amino-2-hydroxy-guanidine. In addition, endotoxaemia for 6 h resulted in a significant increase in myeloperoxidase activity (MPO), an indicator of neutrophil infiltration, in the liver. Treatment of LPS-rats with 1-amino-2-hydroxy-guanidine did not affect the rise in MPO-activity in the liver caused by endotoxin. 6. Thus, 1-amino-2-hydroxy-guanidine is a potent inhibitor of iNOS activity in macrophages or RASM in culture as well as in rats with endotoxic shock. Inhibition of iNOS activity with 1-amino-2-hydroxy-guanidine prevents the delayed circulatory failure and attenuates the dysfunction of liver, and pancreas, as well as the metabolic acidosis caused by endotoxaemia.
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PMID:Attenuation of endotoxin-induced multiple organ dysfunction by 1-amino-2-hydroxy-guanidine, a potent inhibitor of inducible nitric oxide synthase. 873 25

Tissue injury is a common occurrence in multiple organ failure, a possible clinical complication of Gram-negative bacterial sepsis. Gram-negative bacteria, in part through lipopolysaccharide (LPS), tumor necrosis factor, and other cytokines, activate neutrophils to increase oxygen consumption and produce reactive oxygen species (ROS). ROS have been suggested to play a critical role in the pathogenesis of multiple organ failure. Accordingly, we hypothesized that the susceptibility of tissues to ROS can be reduced by augmenting the antioxidant status of the affected tissues. Rats were challenged intravenously with LPS (Escherichia coli: 0111:B4) at a dose of 1 mg/kg body weight, and 0, 2, 4, or 6 h later were treated intravenously with plain liposomes or alpha-tocopherol liposomes (20 mg alpha-tocopherol/kg body weight); treated rats were then killed 24 h after LPS challenge. Animals challenged with LPS were extensively damaged in the liver, as evidenced by an increase in plasma alanine aminotransferase and aspartate aminotransferase activities, and also in the lung, as indicated by a decrease in pulmonary angiotensin-converting enzyme and alkaline phosphatase activities. The injection of LPS also resulted in increased myeloperoxidase activities in the two organs, suggestive of activation of the inflammatory response. Within the pulmonary and hepatic organs of LPS-challenged animals, the involvement of oxidative stress mechanisms was evident, because a significant decrease in reduced glutathione and an increase in lipid peroxidation were observed. In contrast, the administration of alpha-tocopherol liposomes in the post-LPS-challenge period resulted in a significant alleviation of both lung and liver injuries, evidenced by a general reversal of the altered biochemical indices toward normal among treated animals. The therapeutic effect was found to be greater when liposomal alpha-tocopherol treatment was given earlier during the development of injury. Plain liposomes administered immediately after LPS injection also protected hepatic and pulmonary tissues from injuries. However, unlike alpha-tocopherol liposomes, plain liposomes did not confer any beneficial effect when administered at later timepoints post-LPS injection. These data suggest that alpha-tocopherol, administered in a liposomal form, may serve as a potentially effective pharmacological agent in the treatment of LPS-induced tissue injuries.
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PMID:Treatment of LPS-induced tissue injury: role of liposomal antioxidants. 882 99

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

Tumor necrosis factor-alpha (TNF) is known to be released after partial hepatectomy. Furthermore, TNF triggers the release of chemotactic cytokines, such as epithelial neutrophil activating protein (ENA-78), which are important for neutrophil chemotaxis, activation, and propagation of the inflammatory response. We now postulate that ENA-78 may play a role the hepatic inflammatory response that occurs following partial hepatectomy. Rats were subjected to 70% hepatectomy or sham laparotomy and were killed in a time-dependent manner. Hepatic neutrophil influx, as assessed by myeloperoxidase (MPO) levels, serum alanine aminotransferase (ALT), and hepatic TNF and ENA-78 levels, as measured by ELISA, were evaluated at 1, 6, and 12 h following operation. MPO levels became significantly elevated within 6 h of hepatectomy and remained elevated at 12 h. Serum ALT became significantly elevated within 1 h of hepatectomy and continued to rise at 12 h. Hepatic TNF and ENA-78 were also increased significantly after hepatectomy. Next, rats undergoing 70% hepatectomy were treated with neutralizing anti-ENA-78 serum; this resulted in a significant decrease in hepatic MPO and serum ALT, suggesting less hepatic injury. To determine whether ENA-78 release was induced by TNF is this model, rats were treated with neutralizing anti-TNF serum and hepatic ENA-78 levels measured 6 h posthepatectomy. ENA-78 levels were significantly decreased in the animals receiving the anti-TNF serum, suggesting that ENA-78 is released in response to TNF in this model. These data suggest that TNF triggers the release of ENA-78 following 70% hepatectomy and that ENA-78 contributes to the hepatic neutrophil influx and liver injury following 70% hepatectomy.
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PMID:Hepatic inflammation following 70% hepatectomy may be related to up-regulation of epithelial neutrophil activating protein-78. 896 89

When activated, inflammatory cells such as polymorphonuclear leukocytes (PMNs) can damage isolated hepatocytes in vitro. These studies were performed to determine if flutamide activates PMNs. Flutamide (Eulexin) is an orally active, nonsteroidal antiandrogen that can cause liver injury associated with inflammation. Activation of PMNs was assessed from the production of superoxide anion and the release of myeloperoxidase in the presence or absence of flutamide and phorbol myristate acetate (PMA) or f-methionyl-leucyl-phenylalanine (fmlp). In addition, hepatocytes were cocultured with PMNs stimulated with PMA or fmlp in the presence or absence of flutamide, and cytotoxicity to hepatocytes was evaluated from the release of alanine aminotransferase into the medium. Flutamide alone did not stimulate the generation of superoxide anion by PMNs but potentiated its production in response to PMA. At lower concentrations of flutamide (i.e. 25 microM), there was a tendency toward increased release of myeloperoxidase, whereas at higher concentrations (i.e. 75-100 microM) flutamide inhibited degranulation in response to fmlp. In coculture with hepatocytes, PMNs exposed to either flutamide, fmlp, or PMA alone caused a significant increase in release of alanine aminotransferase. Hepatocellular toxicity caused by PMNs incubated with flutamide and PMA was additive and was not affected by the addition of superoxide dismutase and catalase. Flutamide had no significant effect on fmlp-induced injury in cocultures. These data indicate that flutamide alters the activation of PMNs by subsequent stimuli in vitro. In addition, in the presence of flutamide, minor PMN-mediated injury to isolated hepatocytes was observed.
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PMID:Alteration by flutamide of neutrophil response to stimulation. Implications for tissue injury. 917 23

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