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)

Verapamil, a calcium channel blocker, improves myocardial preservation during cold cardioplegia and protects against renal damage during periods of warm and cold ischemia. To determine if verapamil could prevent ischemic damage to livers during and after cold storage, harvested rat livers were flushed with either University of Wisconsin (UW) solution or UW solution with 25 mg/liter verapamil. Twenty rats were used in each group. After 24 hr of storage at 4 degrees C, livers were perfused with oxygenated blood through the portal veins for 2 hr at 37 degrees C and pH 7.4. Liver enzymes, electrolytes, and perfusate flow rate were determined at 30-min intervals. At 90 min of perfusion, the verapamil group of livers had less elevation of AST (110 +/- 17 IU/liter vs 172 +/- 25 IU/liter, P less than 0.05), ALT (115 +/- 21 IU/liter vs 210 +/- 34 IU/liter, P less than 0.05), and LDH (962 +/- 170 IU/liter vs 1452 +/- 253 IU/liter, NS). Verapamil livers produced more bile than controls (6.9 +/- 1.9 microliters/g vs 2.3 +/- 1.7 microliter/g, P less than 0.05) and maintained a higher portal flow rate throughout the perfusion. Both groups showed similar reduction in liver weights after storage (3.9 +/- 0.9% vs 2.8 +/- 0.7%) and required the same amount of bicarbonate for correction of acidosis during perfusion (2.6 +/- 0.2 mM vs 2.8 +/- 0.2 mM). Light microscopic exam after perfusion showed hepatocyte damage in 30% of control livers, but 0% of verapamil livers. We conclude that verapamil-treated rat livers showed less damage and better function upon reperfusion after 24 hr of cold storage. This agent may be clinically useful as an additive to the UW preservation solution for livers.
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PMID:Verapamil improves rat hepatic preservation with UW solution. 205 66

Chronic oral administration of oxodipine, a new calcium channel blocker, resulted in a reduction in the blood enzyme activity of alanine and aspartate aminotransferase. The reductions were both time and dose related. The decline in enzyme activities was accompanied by microscopic hepatic changes, which in the opinion of the authors should have been associated with an increase in the enzyme activities of alanine aminotransferase and aspartate aminotransferase. The effect was only partially reversed one month after the cessation of oxodipine treatment.
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PMID:Drug-induced decrease of serum alanine and aspartate aminotransferase activity in the rat, as a result of treatment with oxodipine, a new calcium channel blocker. 231 33

Recent investigations have indicated that nifedipine, a calcium channel entry blocker, may be useful in the treatment of preterm labor. This prospective, randomized study compares cardiovascular and metabolic effects measured in association with sublingual and oral administration of nifedipine with those noted with the intravenous and oral administration of the beta-adrenergic agent ritodrine. Serial measurements of cardiovascular parameters, hematocrit, electrolytes, glucose, blood urea nitrogen, creatinine, calcium, and serum glutamic-oxaloacetic and glutamic-pyruvic transaminase were compared between groups. Sublingual and oral nifedipine caused minimal cardiovascular alterations. At doses sufficient to achieve tocolysis, ritodrine caused more pronounced cardiovascular changes than nifedipine. Both agents had a hemodilutional effect, but nifedipine was not associated with alterations in serum electrolytes or a dramatic hyperglycemia. On the basis of this study, it appears that the use of nifedipine for preterm labor management is associated with hemodilutional changes but not the adverse cardiovascular or metabolic effects often associated with ritodrine tocolysis.
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PMID:Cardiovascular and metabolic effects associated with nifedipine and ritodrine tocolysis. 278 62

Subchronic oral exposure of dogs to Oxodipine, a new calcium channel blocker of the dihydropyridine-type, resulted in dose-related gingival hyperplastic changes. The doses at which an effect was elicited were 24 and 73 times the intended therapeutic dose for man. The effects were first noted after 7 weeks of treatment, and were limited to the high and intermediate dose groups of both sexes. Macroscopically, a generalized enlargement of the maxillary and mandibular facial and lingual gingivae were noted. The histological changes were similar to those described in man for Nifedipine and hydantoin-related drugs. An increase in the activity of alkaline phosphatase and a decrease in alanine aminotransferase was demonstrated. This article is the first to describe gingival hyperplasia in dogs induced in a dose-dependent manner by a calcium channel blocker.
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PMID:Gingival hyperplasia in dogs induced by oxodipine, a calcium channel blocking agent. 319 54

There is evidence that an increase in cytosolic Ca++ concentration is a terminal event in the progression to cell death in toxic liver injury. We have compared the hepatoprotective effects of N-acetylcysteine (1 g/kg) and the calcium channel blocking agent, diltiazem (24 mg/kg), when given at 30 min, 3 h and 6 h after single intraperitoneal overdoses of acetaminophen (500 mg/kg) in mice. Overall beneficial effects on mortality, liver necrosis score, and plasma alanine aminotransferase (ALT) activity were found in diltiazem-treated mice 24 h after acetaminophen overdose. However, the most marked effects were obtained when diltiazem was given 6 h after acetaminophen. N-acetylcysteine was more effective than diltiazem at 30 min and 3 h, although it was less effective at 6 h. Mean plasma concentrations of the mercapturate metabolite (hepatic oxidative metabolism) were not significantly different among animals receiving acetaminophen alone or in combination with diltiazem, which suggests that the hepatoprotective effects of diltiazem are not exerted by inhibition of drug metabolic enzymes.
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PMID:Protective effect of diltiazem against acetaminophen hepatotoxicity in mice. 777 52

The effects of calcium channel blockers, verapamil, nifedipine and diltiazem, on CCl4-induced liver damage were determined. A single dose of CCl4 (0.5 ml/kg p.o.) led to a five-fold increase in liver calcium content. The toxic effect of CCl4 was also observed in other hepatic processes: the protein synthesis rate in the liver showed an important decrease, liver glycogen content and bile flow was decreased, and lipid peroxidation was approximately doubled. The plasma levels of cholesterol, triglycerides and transaminases (AST and ALT) also increased. When the calcium channel blockers were administered 2 hr prior to and 7 hr after the administration of the toxic agent at doses of 25 mg/kg (diltiazem) and 10 mg/kg (nifedipine and verapamil), the liver showed a significant reestablishment of several of these parameters: a considerable reduction in liver calcium content, a decrease in AST and ALT levels, and a significant increase in protein synthesis rate. There was also a partial inhibition of lipid peroxidation.
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PMID:Protective effects of calcium channel blockers in carbon tetrachloride-induced liver toxicity. 808 14

The protective effect of the calcium channel blocker nimodipine on liver ischemia and reperfusion was studied in the rat. The homeostasis of intracellular calcium ions seems to be a determinant factor in the cell injury that appears after ischemia and reperfusion. Nimodipine was used to downregulate the calcium levels in the cytosol of the ischemic cell, the hypothetical role of Ca2+ in the pathogenesis of ischemia and reperfusion injury. The experimental procedure consisted of the temporary interruption of blood flow to the left lateral and medial lobes of the rat liver and subsequent reperfusion after a period of 45 min of ischemia. Nimodipine (10 micrograms/kg body wt) was administered either before or after the onset of ischemia. The postischemic liver blood flow and liver oxyhemoglobin saturation were recorded using a He-Ne laser Doppler flowmeter and photometer, which showed, in the pretreated group, a recovery of reperfusion blood flow (58.1%) and liver reflectance (85.5%) significantly better (P < 0.01 and P < 0.001) than those in the respective untreated controls of flow (32.8%) and reflectance (70.5%). In the group that received nimodipine after ischemia, the recovery of the blood flow and the postreperfusion liver reflectance were not significantly better than those in the untreated control group. ALT levels (P < 0.05), galactose elimination capacity (P < 0.001), and histological studies also showed a protective effect of calcium antagonist nimodipine when administered before ischemia.
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PMID:Ischemia and reperfusion injury of the rat liver: the role of nimodipine. 859 15

The purpose of this study was to investigate the protective effects of the calcium channel blocker verapamil on warm ischemia-reperfusion injury to the liver using a rat model. Ischemia of the left and median lobes was created by total inflow occlusion for 60 min followed by 24 hr of reperfusion. Hepatocell injury was assessed by the release of liver enzymes [alanine aminotransferase (ALT) and lactic dehydrogenase (LDH)], reduced (GSH) and oxygenated (GSSG) plasma glutathione and total biliary glutathione. Hepatocyte function was quantitated by measuring bile flow. Rats were randomized to one of two groups: pretreatment with iv verapamil (0.3 mg/kg) or iv normal saline (controls). Verapamil significantly increased bile flow and GSH efflux while decreasing plasma ALT and LDH compared to those in controls 24 hr after liver ischemia-reperfusion (LIR). A significant correlation existed between bile flow and biliary GSH efflux at 1 but not 24 hr after LIR, suggesting that early LIR injury is mediated predominantly by generation of oxygen free radicals. Liver enzyme elevation and bile flow were inversely correlated at 24 but not 1 hr after injury. We conclude that verapamil significantly protects the liver against warm LIR injury. The minimal protective effect of verapamil on early liver ischemia-reperfusion demonstrates that verapamil does not prevent the early generation of oxygen radicals upon reperfusion. However, the significant restoration of biliary GSH efflux and hepatocyte protection at 24 hr suggests involvement of calcium ions in late hepatocyte injury. Verapamil's protective effects may be related to attenuating pathophysiologic events occurring beyond 1 hr of reperfusion. Future studies investigating the protective effects of verapamil on warm LIR injury should be carried out for at least 24 hr postreperfusion.
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PMID:Protective effects of the calcium channel blocker verapamil on hepatic function following warm ischemia. 881 26

The effects of verapamil, a calcium channel blocker, on allyl alcohol (AA) hepatotoxicity were studied in vivo. AA administration induced an increase of serum alanine aminotransferase (ALT) concentration and liver necrosis by means of glutathione (GSH) depletion. Pretreatment with verapamil reduced the increase of ALT in plasma and the morphological signs of necrosis induced by AA administration. Verapamil did not affect GSH levels by itself but prevented the decrease of the tripeptide by AA. In vitro, but not in vivo, verapamil inhibited the activity of alcohol dehydrogenase (ADH), the key enzyme in the conversion of AA into the toxic metabolite acrolein. These data indicate that verapamil protects against AA toxicity, probably by preventing the production of acrolein, its reactive metabolite.
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PMID:Effect of verapamil on allyl alcohol hepatotoxicity. 890 40

The onset of liver injury is a pivotal event during endotoxemia. Lipopolysaccharide (LPS) activates the Kupffer cells (KC), the resident macrophages of the liver, to generate an abundance of inflammatory substances, including nitric oxide (NO). Elevated levels of NO are thought to contribute to the propagation of liver injury during sepsis. Calcium, a major second messenger in several cellular signaling events, is required by the KC for the generation of inducible nitric oxide synthase (iNOS). The purpose of this study was to determine whether calcium channel antagonists limit hepatic injury and iNOS expression in vivo following LPS exposure and to evaluate their effects on the regulation of iNOS expression in cultured KC. In rats subjected to LPS for 6 h, the serum alanine aminotransferase (ALT) level was elevated significantly; this response was accompanied by an increase in iNOS mRNA formation in the intact liver. Pretreatment of rats with calcium channel antagonists (i.e., diltiazem, nifedipine, or verapamil) before LPS exposure attenuated the serum ALT level and iNOS mRNA expression in the liver. Pretreatment of cultured KC with calcium channel antagonists for 1 h followed by the addition of LPS markedly repressed iNOS protein and mRNA expression. Time-course studies revealed that calcium channel antagonists were most effective at inhibiting LPS-induced iNOS mRNA formation by KC when added before LPS. Treatment of KC with calcium channel antagonists prior to the addition of LPS decreased nuclear levels of the p65 subunit of nuclear factor-kappaB and prevented the LPS-dependent degradation of the inhibitory protein IkappaBalpha. Thus our findings indicate that under endotoxemic conditions calcium channel antagonists limit hepatocellular injury that is accompanied by an inhibition of LPS-mediated iNOS expression in rat liver KC.
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PMID:Effects of calcium channel antagonists on LPS-induced hepatic iNOS expression. 1044 49

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