Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.6.1.1 (aspartate aminotransferase)
21,665 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

S-Adenosylmethionine (SAMe) and N-acetylcysteine (NAC), two agents with known benefit for reducing hepatic injury, were used to treat ischemic injury in a rat liver perfusion model. We compared cold ischemic injury with sequential periods of cold and warm ischemia that equate to episodes during the storage and implantation of liver grafts. The additional period of 20 min warm ischemia after 24 hr cold ischemia profoundly impaired initial (15 min) mean blood flow (1.8 +/- 0.1 vs. 2.7 +/- 0.4 ml/min/g liver for cold ischemia, P < 0.001) and bile flow (2.31 +/- 0.74 vs. 10.6 +/- 3.96 mg/hr/g liver for cold ischemia, P < 0.001) and increased the oxygen extraction ratio (OER) (0.53 +/- 0.03 vs. 0.29 +/- 0.08 for cold ischemia, P < 0.01) and acid release from glycolysis (0.18 +/- 0.02 vs. 0.11 +/- 0.02 mmol/g liver for cold ischemia, P < 0.05). Impairment of blood flow, bile flow, and OER was sustained throughout the 3-hr perfusion. In the same model, SAMe restored hepatic blood flow to control values when administered to the donor, included in the UW, and added as a bolus to the perfusate on reperfusion. SAMe also improved OER (P < 0.001 vs. sequential cold and warm ischemia) and initial bile flow (9.63 +/- 2.01 mg/hr/g liver, P < 0.01), returning values to control levels by 3 hr. SAMe reduced the initial release of glucose upon reperfusion (P < 0.01) and improved subsequent glucose uptake, but corresponding benefits on enzyme release from damaged hepatocytes (AST) or endothelial cells (purine nucleoside phosphorylase) were not observed. Equimolar concentrations of NAC induced transitory improvements in blood and bile flow but these were not sustained beyond 30 min of reperfusion.
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PMID:Evidence that S-adenosylmethionine and N-acetylcysteine reduce injury from sequential cold and warm ischemia in the isolated perfused rat liver. 817 41

The diagnostic significance of ischemia-sensitive laboratory parameters in respect to possible interference with shed blood autotransfusion was assessed in a prospective study with 100 patients undergoing elective coronary artery bypass grafting. Serum levels of creatine kinase, creatine kinase MB activity, creatine kinase MB mass concentration, 2-hydroxybutyrate dehydrogenase, lactate dehydrogenase-1, troponin-T, myoglobin, and glutamicoxaloacetic transaminase were repeatedly assessed up to the sixth postoperative day. Thirty-seven patients were excluded from the study due to postoperative development of myocardial infarction (n = 4), transient ischemic events (n = 25), and left bundle-branch blocks (n = 8). In the remaining group of 63, 37 patients were retransfused with 580 +/- 370 mL shed blood up to the twelfth postoperative hour, and 26 patients did not receive autotransfusion due to minimal mediastinal blood loss. The results of our study show that the ischemia-sensitive laboratory parameters were significantly influenced by shed blood autotransfusion: 8 hours postoperatively, creatine kinase (272%), creatine kinase MB fraction (151%), 2-hydroxybutyrate dehydrogenase (130%), lactate dehydrogenase-1 (133%), troponin-T (200%), myoglobin (159%) and glutamic-oxaloacetic transaminase levels (153%) were significantly elevated (p < 0.05) in patients with postoperative autotransfusion, although there were no electrocardiographic signs of myocardial ischemia in this group of patients. Our study shows that postoperative autotransfusion of mediastinal shed blood may interfere with the diagnosis of perioperative myocardial ischemia by laboratory parameters in coronary bypass patients.
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PMID:Shed blood autotransfusion influences ischemia-sensitive laboratory parameters after coronary operations. 817 1

Glycine has been shown to protect renal tubule cells and hepatocytes from ischemia, ATP depletion, and cold storage injury. Glycine may be a useful additive to organ preservation solutions or suppress reperfusion injury by infusion into recipients of liver transplantation. In this study, the effects of glycine on survival and postoperative liver injury were studied in the rat and dog orthotopic transplant model. Rat livers preserved for 30 hr in the University of Wisconsin (UW) solution were 50% viable (3 of 6 survivors for 7 days). When glutathione was replaced by 10 mM glycine, survival increased to 100% (6 of 6). There was a significant reduction in hepatocellular injury at the end of preservation (lactate dehydrogenase [LDH] in the pretransplant flush-out of the liver was lower in the glycine group) and after transplantation (serum LDH concentration 6 hr after transplant was lower in the glycine group). In the dog, omission of glutathione from the UW solution resulted in 33% survival (48-hr preservation model) versus 100% survival with glutathione. Replacing glutathione in the UW solution by glycine did not improve survival (33% after 48 hr of preservation). However, when glycine was given to recipients of livers preserved in the UW solution for 24 or 48 hr, there was a decrease in the degree of hepatocellular injury. After 48 hr of preservation, peak aspartate aminotransferase, alanine aminotransferase, and LDH were reduced by about 45-55% when glycine was given to the recipient. Although the differences, with and without glycine treatment of the recipients, did not reach statistical significance, there was a noticeable reduction in hepatocellular injury with glycine. There was 100% survival of dogs in the groups that received livers preserved with the UW solution plus or minus glycine infusion. Hepatamine, a parenteral nutrition solution containing glycine and other amino acids increased hepatocellular injury (higher concentrations of aspartate aminotransferase, alanine transferase, and LDH versus control 48-hr preserved livers), although all dogs survived. This study shows that glycine is cytoprotective when administered to recipients of livers preserved for 24 or 48 hr and suppresses hepatocellular injury, as reflected in a reduction in the concentration of serum enzymes. However, the differences, with and without glycine, were, at best, marginal and further studies are needed to determine whether glycine would make a significant improvement in liver preservation and prevent primary nonfunction.
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PMID:Effect of glycine in dog and rat liver transplantation. 821 99

Reactive oxygen metabolites generated from xanthine oxidase play an important role in the pathogenesis of ischemia-induced tissue injury. In a hemorrhagic shock model of ischemia-reperfusion, the intracellular enzyme xanthine oxidase was released into the vasculature. This intravascular source of superoxide (O2.-) and hydrogen peroxide (H2O2) interacted reversibly with glycosaminoglycans of vascular endothelium and markedly concentrated xanthine oxidase at cell surfaces, enhancing its ability to produce extensive damage to remote tissues. Rats were made hypotensive by hemorrhage, maintained for 2h, and reinfused with shed blood. Blood samples were obtained prior to hemorrhage and 15, 30, 60, and 90 min after reperfusion for determination of xanthine oxidase (XO), lactate dehydrogenase (LDH), and alanine transaminase (AST). These enzymes were not significantly elevated in control animals. Reperfusion after hemorrhage-induced ischemia resulted in significantly elevated AST and LDH in both low heparin (100 U/h) and high heparin (1000 U/h) groups. Xanthine oxidase was detected in the circulation only after 90 min reperfusion in the low heparin group and was elevated during the entire reperfusion period in the high heparin group. Studies with cultured vascular endothelium showed significant heparin-reversible binding of XO to cellular glycosaminoglycans. These results suggest that XO can gain access to the circulation following ischemia, where it then binds to the vascular endothelial cells to produce site-specific oxidant injury to organs remote from the site of XO release.
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PMID:Xanthine oxidase activity in the circulation of rats following hemorrhagic shock. 822 22

The present study set out to investigate whether plasma phosphatidylcholine hydroperoxide (PCOOH) levels could accurately reflect lipid peroxidation linking to liver damage due to ischemia--reperfusion. PCOOH is a primary peroxidative product of phosphatidylcholine (PC), which is the most important functional lipid in the hepatocellular membrane, and may mediate oxidative stress. We quantified PCOOH and PC in the plasma and liver of rats subjected to hepatic ischemia-reperfusion by chemiluminescence detecting HPLC (CL-HPLC) method. Plasma PCOOH levels showed no significant rise in either the ischemia only group or in the sham-operation group, compared to controls (0.7 nmol/mL plasma). At 60 min subsequent to reperfusion, the PCOOH levels in plasma and liver, as well as the levels of several serum markers of liver injury [lactic dehydrogenase (LDH), glutamic-oxalacetic transaminase (GOT), glutamic-pyruvic transaminase (GPT)] increased in proportion to the duration of ischemia (up to 60 min). During periods of reperfusion following 30 min of ischemia, plasma PCOOH increased biphasically (2 nmol/mL; 12-24 hr duration of reperfusion), and generally ran parallel to that in the liver after more than 60 min of reperfusion. Dose-dependent protective effects against warm ischemia (30 min)-reperfusion (12 hr) injury were clearly demonstrated in the groups treated with allopurinol, diclofenac Na, ascorbic acid (V.C), alpha-tocopherol and coenzyme Q10, but not in those treated with r-h-superoxide dismutase or betamethasone. The rises in plasma PCOOH and serum GOT, GPT and LDH of the ischemia-reperfused rats were ameliorated most in the group pretreated with diclofenac Na, and next most in the group pretreated with V.C. These results indicate that the plasma PCOOH levels are a useful index both for liver cell damage induced by oxygen free radicals generated during ischemia-reperfusion, and to investigate the efficacy of drugs against oxidative stress.
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PMID:Effects of anti-free radical interventions on phosphatidylcholine hydroperoxide in plasma after ischemia-reperfusion in the liver of rats. 825 Sep 60

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

It is well recognized that current selection criteria used to assess liver grafts before implantation are inaccurate and correlate poorly with graft outcome. A bench or laboratory-based test that could indicate the extent of liver injury immediately before implantation would be a valuable adjunct to clinical assessment. Hyaluronic acid (HA) and creatine kinase (BB component; CK-BB) levels in the caval effluent after liver perfusion have been suggested as indicators of preservation injury. Our objective was to investigate the relevance of preserved liver effluent HA and CK-BB as a predictor of early graft function. Perfused liver effluent HA and CK-BB levels were measured. Graft function was measured in terms of peak serum aspartate transaminase and its level on day 5 postoperatively as well as peak bilirubin level and prothrombin time. The cold ischemia time (CIT) was recorded. Statistical comparisons were made among HA level, CK-BB level, CIT, and graft function parameters. The study was conducted at The Liver and Hepatobiliary Unit, Queen Elizabeth Hospital, Birmingham, United Kingdom. Fifty patients undergoing OLT were studied. HA level was measured in 50 patients and CK-BB level in 30 patients. The main outcome measures were graft function and graft outcome. The graft function data are grouped according to effluent HA levels above or below 400 micrograms/L. Thirteen patients (26%) had a level below 400 micrograms/L and the remaining 37 (74%) were above this threshold. There were no significant differences between the groups for these indicators of graft function. There was no difference between the 2 groups for CIT. The overall median HA level was 1212 micrograms/L (range 39-4000 micrograms/L). The median total CK activity in the perfusate was 302 IU/L (range 118-1155 IU/L). The proportion of CK-BB activity from this total was 146 IU/L (8-641 IU/L), or 48% of the total CK activity. In a multiple regression analysis with CK-BB activity as the dependent variable, there was no demonstrable numerical relationship to graft function. In a separate multiple regression analysis similar results were obtained for HA. We conclude that the level of HA or CK-BB levels should not be used in determining the suitability for implantation of a harvested hepatic allograft.
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PMID:Can effluent hyaluronic acid or creatine kinase predict sinusoidal injury severity after cold ischemia? 827 99

Lipid peroxidation may play a major role in the loss of liver graft viability after prolonged cold ischemia and reperfusion injury. The lazaroid compound U74006F is a potent inhibitor of lipid peroxidation, and this study was designed to evaluate the efficacy of this compound in preventing cold ischemia-reperfusion damage in three different models: pig endothelial cells in culture, ex vivo isolated pig liver perfusion and orthotopic transplantation of syngeneic rat livers. The addition of U74006F to University of Wisconsin preservation solution significantly prolonged endothelial cell viability after 48 and 72 hr of cold ischemia and reoxygenation (p < 0.01). Donor pigs were injected with vehicle or U74006F (4.5 mg/kg) before liver harvest. After 24 hr of cold storage in University of Wisconsin solution, the livers were perfused with pig blood for 180 min in an isolation chamber. Measurements of liver function parameters, including AST, ALT, bile production, superoxide anion and phospholipase A2 release, were assessed every 60 min. Although bile production was similar in the U74006F-treated and control groups, significant decreases of AST and ALT levels (p < 0.01) in the perfusate of the livers from treated donors were observed. In addition, the U74006F group displayed significantly reduced release of superoxide anion and phospholipase A2 compared with these parameters in the untreated group (p < 0.05 and p < 0.01, respectively). In the last model, donor rats were treated with U74006F before harvest; the rat liver grafts were preserved in cold University of Wisconsin solution for 24 hr and then transplanted into recipient rats.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Protective effect of the lazaroid U74006F in cold ischemia-reperfusion injury of the liver. 829 99

The number of clinical liver transplants that can be performed is limited by the availability of suitable donor organs. If it were possible to harvest and use livers after cardiac arrest, the supply could be improved. The mechanisms of damage in warm ischemia are not yet well understood and the consequences of transplanting a liver that is unable to provide immediate life-support are unacceptable. This study aims to identify areas for more detailed study in an attempt to improve the quality of livers harvested after significant warm ischemia, and to select acceptable organs for transplantation. Porcine livers were subjected to 75 min of warm ischemia and then perfused at 37 degrees C for 3 hr, during which period biochemical monitoring was carried out. At the end of the perfusion, histological and transmission electron microscopical studies were made. Large amounts of the intracellular enzymes ALT, AST, and LDH were released into the perfusate during the first 30 min of perfusion, but this--and the further amounts released during the subsequent 2.5 hr--was influenced by the composition of the perfusate. The inclusion of the substrates fructose and oleate, plus amino acids, substantially reduced this release and also improved the ability of the livers to metabolize ammonia. Oxygen free-radical scavengers had a significant, but smaller, beneficial effect. Electron microscopy confirmed the value of perfusion in improving cell morphology, and the additional value of including metabolic substrates. This study shows that hepatocellular structure and function can be improved by appropriate perfusion methods that also provide a simple means of monitoring some important functions. Both metabolic support and neutralization of oxygen free-radical action have a role to play in this approach to rendering ischemically injured livers acceptable for clinical use.
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PMID:The possibility of resuscitating livers after warm ischemic injury. 833 57

Between September 1988 and November 1991, 201 donor hepatectomies and transplantations were performed. Fifty-four livers (26.9%) were harvested by other teams and shipped for transplantation; 147 livers (73.1%) were procured by teams from our transplant center. Comparing the maximal postoperative serum-aminotransferases (s-AT), we evaluated the postischemic damage of shipped organs (AST 951 +/- 931 IU/l; ALT 820 +/- 666 IU/l) and nonshipped organs (AST 753 +/- 1256 IU/l; ALT 636 +/- 896 IU/l); this did not differ significantly. Donor-related factors, such as critical parameters (i.e., cardiac arrest, arterial hypotension, age over 50 years, or elevated preoperative s-AT), length of stay in the intensive care unit before harvesting, and cause of death showed similar patterns in both groups. The mean cold ischemia time in the group of shipped livers (12 h 10 min +/- 4 h 22 min) and in the nonshipped livers (10 h 6 min +/- 3 h 53 min) did not differ significantly. Five cases (2.5%) of a primary non-functioning graft presenting with significantly (P < 0.001) elevated s-AT (AST 4944 +/- 2280 IU/l; ALT 3186 +/- 1918 IU/l) necessitated an early retransplantation. One organ was shipped and four organs were nonshipped, thus corresponding to their portion of all grafts. These data indicate that the transplantation of shipped livers is a safe procedure procedure, provided that procurement is done by experienced centers.
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PMID:Transplantation of shipped donor livers. 834 65


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