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:2.6.1.2 (alanine aminotransferase)
26,722 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A veterinarian dealing with critical and trauma patients must be proficient with techniques for tracheostomy, thoracostomy tube placement for chest drainage, diagnostic peritoneal lavage, and autotransfusion. The utilization of these techniques may be life-saving in the critical patient. A tracheostomy is indicated in any patient with upper airway obstruction that cannot be managed with supplemental oxygen and/or orotracheal intubation. A tracheostomy tube with an inner cannula is preferred. Tracheostomy tubes should be cleaned at 3- to 4-h intervals, and methods should be employed to decrease thick tracheal secretions and to remove them from the trachea. A patient with a tracheostomy tube should be monitored continuously. A thoracostomy tube is indicated in any patient with large and/or continuous accumulation of air, blood, fluid, or chyle in the pleural space. The thoracostomy tube should be at least the same size as the patient's main stem bronchus. The thoracostomy tube is placed aseptically at the seventh intercostal space at the junction of the upper one third and lower two thirds of the lateral chest wall. Fluid or air may be removed from the chest intermittently with a three-way stopcock attached to the thoracostomy tube and a 60-ml syringe. If continuous drainage is needed, a continuous underwater seal and suction system should be used. Diagnostic abdominal paracentesis and peritoneal lavage are useful techniques in the determination of abdominal trauma, hollow viscus rupture, peritonitis, hepatic trauma, and urinary system trauma. When a multiholed catheter and lavage are used, the accuracy of detecting abdominal trauma is 95 per cent. When only needle paracentesis is used, the accuracy drops to 47 per cent. Abdominal lavage fluid can be analyzed for bacteria, whole blood, white blood cells, free bilirubin, creatinine, blood urea nitrogen, amylase, alkaline phosphatase, and alanine aminotransferase. Large volumes of whole blood recovered from abdominal or thoracic paracentesis can be reinfused into the patient if needed, providing it is not contaminated or markedly hemolyzed. The blood should be collected aseptically into blood bottles or bags. If the bleeding is ongoing or the blood only a few hours old, anticoagulants should be used. If the hemorrhage is several hours old, then clotting and defibrination has already occurred and the blood can be collected into "dry" bags or bottles. Before use, abdominal blood should be analyzed for urine, bile or fecal contamination. Blood collected from the thoracic cavity is much less likely to be contaminated. Autotransfused blood is administered through a standard blood administration set.
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PMID:Critical care surgical techniques. 268 82

Iron overload is found clinically in such conditions as hemochromatosis and sideroblastic anemia, and after long term repeated transfusion in aplastic anemia. An animal model of iron overload was successfully developed in rats and rabbits by repeated intraperitoneal injections of ferric nitrilotriacetate (Fe3+-NTA). This procedure induced a diabetic state with hyperglycemia, ketonemia, glycosuria and ketonuria. Blood venesection on these rats reduced the iron load in the liver and pancreas, and ameliorated the general diabetic symptoms. A single injection of Fe3+-NTA in rats induced a temporary elevation in plasma iron concentration, lipid peroxidation in the perfused liver homogenate expressed by malondialdehyde (MDA) formation, blood GOT, GPT, ALP and gamma-GTP sequentially. Fe3+-NTA uptake in the liver caused membrane lipid peroxidation, and subsequently produced a transit liberation of liver cell enzymes, although the incorporated liver Fe3+-NTA was only 1% of the injected dosage (7.5 mg iron/kg BW) at 3 hr after injection. The direct toxic effect of Fe3+-NTA to living cells was examined using cultured normal rat liver parenchymal cells (RL-34). Marked cytolysis was found in cells exposed to more than 25 micrograms of iron through Fe3+-NTA/ml. At 50 micrograms iron of Fe3+-NTA/ml, most cells were lethally injured and the remaining cells were piled up and aggregated at 15 days. They grew on soft agar culture, and when inoculated subcutaneously to five newly born rats a subcutaneous tumor developed in all animals within three weeks. Lung metastases were found in three of five inoculated rats. A spin trapping technique with electron spin resonance (ESR) on Fe3+-NTA employing 5, 5-dimethyl-l-pyrroline-N-oxide (DMPO) yielded a spin adduct with three doublets (DMPO-Z) which corresponded to singlet oxygen. By ESR in the presence of H2O2, the Fe3+-NTA solution strongly generated hydroxyl radical. The production of active oxygen species by Fe3+-NTA solution may explain the toxicity and carcinogenicity of Fe3+-NTA. The majority of stainable iron in the iron overloaded tissue was hemosiderin (Hs). We tried to purify the Hs from multi-transfused human spleen by the method of Weir et al. The purified Hs did not show a DMPO-OH adducts in the presence of H2O2 and DMPO on ESR measurement. The Hs iron was solubilized with several biological ligands in an acidic state in the presence of a reducing reagent like glutathione. Solubilized Hs iron produced iron chelate complexes which resulted in OH radicals production in the presence of H2O2 in acidic conditions below pH 5.5.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[Pathogenesis and mechanism of iron overload: ferric nitrilotriacetate, hemosiderin, active oxygen, and carcinogenesis]. 268 76

In isolated, hemoglobin-free perfused livers of fasted rats, formaldehyde at an initial concentration of 10 mmol/l produced toxicity as evidenced by a release of enzymes (GPT, SDH) and of glutathione (mainly GSSG) into the perfusate, an accumulation of calcium in the liver, and a depletion of hepatic glutathione. Formaldehyde also led to an enhanced release of malondialdehyde into the perfusate, indicating peroxidative processes and decreased hepatic oxygen consumption by about 50-70%. The electron microscopic investigation of formaldehyde-exposed livers showed a destruction of the mitochondria (ruptured membranes, loss of the cristae) and some damage of the rough endoplasmic reticulum. Feeding the rats prior to surgery attenuated the hepatotoxic effects of 10 mmol/l formaldehyde. At an initial concentration of 3 mmol/l, formaldehyde did not release enzymes from livers of fed or fasted rats but only from those whose glutathione content had been depleted by treatment with phorone (250 mg/kg ip 2 h earlier). Formaldehyde liberated glucose and lactate from the livers of fed but not from those of fasted rats, indicating anaerobic energy supply in the fed state. The hepatotoxic action of formaldehyde is not due to its metabolism to formate or to the 10% methanol added as a stabilizing agent to the commercially available 37% solution named formalin. In conclusion, by destruction of mitochondria, formaldehyde inhibits aerobic energy supply and thereby presumably produces hepatocellular damage.
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PMID:Mechanistic study on formaldehyde-induced hepatotoxicity. 275 59

A new autoperfusion preparation was used to preserve six major organs simultaneously. In 7 Yorkshire white swine, the heart and lungs were separated and removed with the liver, pancreas, duodenum, and both kidneys en bloc while they were self-perfused. Fresh blood, glucose, electrolytes, heparin sodium, methylprednisolone, and a fat emulsion (Soyacal) were infused through the portal vein. No inotropic drugs were necessary. The organs survived for 18 to 37 hours (average survival, 24.6 +/- 2.7 hours [+/- standard error of the mean]). Aortic systolic pressure ranged from 78.5 +/- 5.5 to 98.7 +/- 11.8 mm Hg. Arterial oxygen tension ranged from 206 +/- 23 to 266 +/- 15 mm Hg and arterial carbon dioxide tension, from 20.1 +/- 2.7 to 32.1 +/- 4.9 mm Hg. Blood lactic acid levels decreased from 8.75 +/- 2.06 to 5.50 +/- 2.45 mmol/L at 24 hours. Urine output ranged from 25 to 82 mL/h. Blood urea nitrogen levels decreased from 9.17 +/- 0.59 to 4.67 +/- 1.08 mg/dL. Blood creatinine levels decreased from 1.34 +/- 0.10 to 0.57 +/- 0.22 mg/dL. Serum glutamicoxaloacetic transaminase levels increased from 73.4 +/- 26.3 to 194 +/- 179.5 U/L and serum glutamic-pyruvic transaminase levels, from 44.8 +/- 5.7 to 91 +/- 66.4 U/L. Red blood cell count ranged from 6.94 +/- 0.58 to 13.23 +/- 2.30 x 10(6)/microliters. Lung wet/dry weight ratios changed from 5.79 +/- 0.17 at the beginning to 6.25 +/- 0.16 at 24 hours. The technique for simultaneous multiorgan preservation presented here is simple, effective, and highly reproducible. This study appears to have produced one of the longest average survival times for autoperfusion.
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PMID:Eighteen to 37 hours' preservation of major organs using a new autoperfusion multiorgan preparation. 275 41

A study was conducted to elucidate the possible role of singlet oxygen in pathogenesis of D-galactosamine-induced liver injury. Tissue and plasma levels of singlet oxygen were determined with chemiluminescence analysis. Following results were obtained: 1) Chemiluminescence as well as malondialdehyde, which is regarded as one of terminal products of lipid peroxidation, significantly increased in the liver and plasma of rats treated with D-galactosamine. 2) Elevation of plasma GPT and total bilirubin was also observed in rats with D-galactosamine-induced liver injury. Histological examination of the liver revealed submassive hepatic necrosis. 3) Administration of vitamin E, a radical scavenger of singlet oxygen, significantly inhibited the increases of chemiluminescence and MDA in the liver and plasma as well as the elevations of GPT and total bilirubin in the plasma. Histological changes of the liver were also found to improve significantly by vitamin E administration. In conclusion, singlet oxygen seems to be definitely involved, at least in part, in pathogenesis of liver damage induced by D-galactosamine. In addition, inhibition of the liver injury is possible, to some extent, by administration of vitamin E, one of the potent radical scavengers of singlet oxygen.
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PMID:[Role of singlet oxygen in pathogenesis of liver injury in rats treated with D-galactosamine]. 279 56

Lycobetaine (AT-1840), developed by our institute, is a new chemotherapeutic agent with relatively high percentage of remission on the treatment of ovary cancer and stomach cancer; no remarkable changes in blood picture, EKG and GPT, were observed. Early examination of the structure activity relationship of lycobetaine gave the following results: 1. A potential betaine and a methylenedioxy group in this compound may be critical for exhibiting antitumor activity; 2. Fission of the five membered ring of lycobetaine will not affect its antitumor activity. In order to see whether the distance between the phenolic oxygen and quaternary nitrogen affects its antitumor activity, compounds 7a-c, 8a-b were synthesized and screened against tumor in mice bearing EAC Preliminary experimental results showed that among the open ring analogs of lycobetaine, 7a, 7b and 8d possessed marked antitumor activity and 7c did not. The results indicate that changes in the distance of the betaine in lycobetaine obviously influence its antitumor activity.
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PMID:[Structure-activity-relationship study of the new anticancer drug lycobetaine (AT-1840)]. 281 92

The mechanism of the periportal (p.p.) toxicity of allyl alcohol (AlOH) was investigated in p.p. and perivenous (p.v.) hepatocytes isolated by digitonin-collagenase perfusion. The distinct origin of the cell preparations was confirmed by the p.p./p.v. ratios of alanine aminotransferase (p.p./p.v. = 1.8), lactate dehydrogenase (1.3) and glutamine synthetase (0.10). The activity of alcohol dehydrogenase (ADH) was not markedly different in p.p. and p.v. cells. Both types of cells oxidized AlOH at a high but equal rate of about 3 mumol/(min.g cells). Concomitantly with rapid oxidation of 0.7 mM AlOH, glutathione (GSH) was depleted by about 95% and its secretion was completely inhibited in both cell types. Although the GSH content was partially restored during a subsequent 3-h incubation, cellular ATP and K+ content gradually decreased and the leakage of lactate dehydrogenase increased in both types of cells. However, the p.p. cells tended to resist AlOH in vitro better, probably due to their 26% higher GSH content after preincubation with L-methionine. Altering the partial pressure of oxygen in physiological range had no effect on the toxicity of AlOH. The results are contrary to the suggestions that the p.p. location of AlOH liver injury is caused by higher ADH activity or higher oxygen tension in the p.p. zone. Rather, the regiospecificity of the injury may be due to rapid uptake and oxidation of AlOH in the p.p. region.
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PMID:Allyl alcohol cytotoxicity and glutathione depletion in isolated periportal and perivenous rat hepatocytes. 283 85

In an attempt to elucidate the role of hepatic macrophages in liver injury, we investigated galactosamine-treated rats (500 mg per kg body weight). The rats received an i.v. injection of latex particles (2 x 10(9) particles per animal) prior to (latex-galactosamine) or 12 to 16 hr subsequent to the galactosamine treatment (galactosamine-latex). Effect of superoxide dismutase on hepatic injury induced by galactosamine or galactosamine-latex treatment was also examined. Oxygen-derived free radical-generating capacity of isolated hepatic macrophages was measured as chemiluminescence with the stimulation of phorbol myristate acetate or latex particles. As compared with normal rats, chemiluminescence of hepatic macrophages from galactosamine-treated rats was 5- to 10-fold enhanced 12 hr following galactosamine treatment and remained elevated for 48 hr. Chemiluminescence of the latex particle-pretreated macrophages in the liver was markedly suppressed even following the galactosamine treatment (p less than 0.01). Compared to galactosamine-treated rats, both lipid peroxide level in the liver tissue and AST and ALT concentration in serum were significantly decreased in the latex-galactosamine-treated rats (p less than 0.01) and increased in the galactosamine-latex-treated rats (p less than 0.01). Furthermore, superoxide dismutase supplementation protected against liver injury induced by the galactosamine-latex treatment. From these results, pretreatment with latex particles suppressed the free radical-generating capacity of hepatic macrophages and protected against hepatic injury induced by galactosamine. In contrast, injection of latex particles after galactosamine treatment aggravated hepatic injury, which was prevented by superoxide dismutase. These data suggest that liver injury induced by galactosamine is modulated by oxygen-derived free radicals from hepatic macrophages.
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PMID:Modulation of hepatotoxicity by macrophages in the liver. 283 5

Human polymorphonuclear neutrophils (PMN), when exposed to soluble or particulate stimuli, can destroy various types of cells. The purpose of the present work was to investigate the toxicity of phorbol myristate acetate (PMA)-stimulated PMN against hepatocytes. Neutrophils were incubated in basal conditions or after stimulation by 100 ng/ml PMA in the presence of rat hepatocytes isolated by collagenase digestion. Cytotoxicity was quantified by the percentage of alanine aminotransferase (ALAT) activity released by hepatocytes in the culture medium. Whereas unstimulated PMN had only minor effects, PMA-stimulated PMN induced, after a 16-hour incubation, a 29.5% ALAT activity release at a PMN/hepatocyte ratio of 20/1. At the same ratio, stimulated PMN induced a 1.5% and a 16.6% ALAT activity release at 1 and 4 hours, respectively. At 1 hour, electron microscopy showed intimate contacts between PMN and hepatocytes; hepatocytes appeared morphologically normal. Hepatocytic lesions were moderate at 4 hours and marked at 16 hours. Neutrophil-induced hepatocyte toxicity could not be explained by the production of reactive oxygen intermediates since: (a) hepatocyte toxicity was not prevented by either superoxide dismutase or by catalase; (b) PMN obtained from a subject with chronic granulomatous disease were as toxic as PMN obtained from a normal subject. By contrast, a proteinase-mediated mechanism could be implicated since: (a) the supernatant of stimulated PMN induced a 45.9% ALAT activity release, after 16 hours of incubation; (b) three neutral proteinase inhibitors (i.e., alpha 1-proteinase inhibitor, phenylmethylsulfonylfluoride, soybean trypsin inhibitor) as well as fetal calf serum decreased this toxic effect by 82, 86, 81 and 70%, respectively. These inhibitors had no or minor protective effect on the toxicity of stimulated PMN coincubated with hepatocytes. This could be explained by the existence of intimate contacts between PMN and hepatocytes impeding the action of antiproteinases. Our results suggest that PMA-stimulated PMN can damage hepatocytes through the release of proteinases and that the existence of close contacts between PMN and hepatocytes might play a major role in this toxic effect.
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PMID:Toxicity of phorbol myristate acetate-stimulated polymorphonuclear neutrophils against rat hepatocytes. Demonstration and mechanism. 284 80

Plasma concentrations of hepatic glutathione S-transferase (GST) are a more sensitive measure of acute hepatic damage than aminotransferase activity. Plasma GST concentrations have been measured by radioimmunoassay in an open randomised study after halothane or isoflurane anaesthesia. The concentration of GST was significantly increased after anaesthesia in patients who received halothane in 30% oxygen/70% nitrous oxide (n = 37) and in patients who received halothane in 100% oxygen (n = 17). The frequency of abnormal GST concentrations, defined as 4 micrograms/l or more, was 35% and 24%, respectively. GST concentrations usually reached a peak 3-6 h after the end of anaesthesia. In 17 patients who received isoflurane in 30% oxygen/70% nitrous oxide, there was no significant rise in GST concentration and no patient had a concentration above 4 micrograms/l. No patient in any of the groups had a significant increase in alanine aminotransferase. In clinically identical situations, anaesthesia with halothane but not isoflurane leads to demonstrable impairment of hepatocellular integrity.
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PMID:Hepatic glutathione S-transferase release after halothane anaesthesia: open randomised comparison with isoflurane. 288 83


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