EC:3.6.1.3 - FACTA Search

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Query: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Calcium adenosine triphosphatase (Ca-ATPase) activity in rat liver plasma membrane fractions prepared by zonal centrifugation was studied for sensitivity to carbon tetrachloride (CCl4). Levels of Ca-ATPase activity in such membrane fractions from animals given CCl4 by gastric intubation were no different from those in plasmalemmal fractions obtained from control rats. When the fractions were incubated in vitro, however, this enzyme activity was inhibited by the presence of CCl4 in a dose-dependent manner. Moreover, inhibition of Ca-ATPase could be reversed by the removal of CCl4. These results would explain the observed increase in hepatic calcium content following the administration of CCl4 if the Ca-ATPase were capable of actively extruding calcium and if this extrusion mechanism proved sensitive to CCl4 present on or about the hepatocytes.
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PMID:Effects of carbon tetrachloride on rat liver plasmalemmal calcium adenosine triphosphatase. 14 6

Mitochondrial function and structure in cirrhotic livers from humans or rats show a variety of changes as compared to control livers. Mitochondrial ATP production is reduced in rats with CCl4- or thioacetamide-induced liver cirrhosis and in rats with secondary biliary cirrhosis. Activity of the electron transport chain is decreased in rats with secondary biliary cirrhosis. In rats with CCl4-induced cirrhosis, the mitochondrial content of certain constituents of the respiratory chain (cytochrome a + a3, cytochrome b and ubiquinone) is increased and activities of cytochrome c oxidase and ATPase are elevated. Similarly, in humans with liver cirrhosis, mitochondrial cytochrome a + a3 content is elevated and has been used to assess the risk for hepatectomy. In rats with secondary biliary cirrhosis, compensatory strategies include increased mitochondrial volume per hepatocyte and possibly increased extramitochondrial ATP production (increased glycolysis). Thus, a variety of adaptive mechanisms are used to maintain mitochondrial function in cirrhotic livers.
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PMID:Adaptation of mitochondrial metabolism in liver cirrhosis. Different strategies to maintain a vital function. 129 65

The effect of estrogen on plasma membrane was investigated using the primary cultured rat hepatocytes treated with carbon tetrachloride (CCl4) and the isolated plasma membrane of rat liver. 17 beta-Estradiol (E2), at concentrations of 10(-10) M to 10(-4) M, 10(-8) M to 10(-6) M and 10(-12) M to 10(-4) M, had an inhibitory effect on the CCl4-induced leakage of glutamic oxaloacetic transaminase, glutamic pyruvic transaminase and lactate dehydrogenase, respectively from primary cultured rat hepatocytes. Diethylstilbestrol, which caused inhibition at a dose of 10(-4) M, did not inhibit any enzyme leakage at any further concentrations of 10(-12) M to 10(-6) M. In the isolated plasma membrane of rat liver, Mg(2+)- and Na+,K(+)-adenosine triphosphatase activity was increased by E2 treatment at concentrations of 10(-6) M and 10(-4) M.
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PMID:Effect of estrogen on liver plasma membrane in rats. 147 13

Previous studies have demonstrated that increased intracellular calcium, depletion of glycogen, and suppressed hepatocellular division resulting in progression of hepatic lesion without recovery are associated with chlordecone (CD)-potentiated CCl4 hepatotoxicity. Since these phenomena are indicative of compromised hepatic energy status, the present studies were designed to investigate this possibility. Neither hepatic ATP content nor mitochondrial Mg2(+)-ATPase was altered significantly in rats maintained on diets contaminated with either CD (10 ppm), or phenobarbital (PB; 225 ppm) alone for 15 days. Similarly, CCl4 (100 microL/kg) administration alone did not alter hepatic ATP levels or mitochondrial Mg2(+)-ATPase activity in rats maintained on a normal diet. However, CCl4 administration to CD pretreated rats resulted in significantly decreased hepatic ATP content as early as 1 hr (36%), and this decrease was irreversibly progressive with time (81% at 6 hr). Oligomycin-sensitive Mg2(+)-ATPase was decreased significantly only starting at 6 hr (21%) after CCl4 administration, indicating that depletion of ATP at early time points was most likely due to rapid utilization consequent to toxic events. CCl4 administration to mirex or PB pretreated rats resulted in a smaller decrease in ATP levels (18-24%) only at 24 hr, returning to normal levels by 36-48 hr, in accord with rapid recovery from limited liver injury. These findings indicate that CCl4 administration to CD but not to PB or mirex pretreated rats results in a severely compromised energy status of the liver. The progressive and early depletion of liver ATP and the inhibition of Mg2(+)-ATPase in CD + CCl4 treated rats indicate the association of compromised energy status with altered Ca2+ homeostasis, depletion of glycogen, and suppressed cell division in CD-potentiated CCl4 toxicity.
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PMID:Altered hepatic energy status in chlordecone (Kepone)-potentiated CCl4 hepatotoxicity. 169 22

Liver regeneration was induced in rats by treatment with CCl4, which results in substantial regenerative activity with a sharp mitotic response 2 days after intoxication. Closely paralleling the mitotic index, we observed fourfold increases in nuclear scaffold nucleoside triphosphatase, an activity thought to participate in nucleocytoplasmic RNA transport and in the 46 kD putative enzyme and its selective photolabeling. Because previous work has indicated that the 46 kD protein may be proteolytically derived from lamins A/C by cleavage at a tyrosine residue at aa376, we investigated the response of lamin A/C transcripts during this regeneration. Surprisingly, Northern blot analyses after CCl4 administration showed low levels of lamin A/C transcripts (which appeared to be predominantly poly[A]-), and we found a decrease in immunoprecipitable lamins A/C from in vitro translation of poly(A)- selected RNA. To circumvent potential problems with such analyses, we used reverse transcription/polymerase chain reaction amplification of lamin A/C transcripts from total cytoplasmic RNA. These assays showed a transient, comparatively minor increase in lamin A/C transcripts 1 day after treatment, but levels rapidly declined from 1 to 3 days and were decreased at 3 to 5 days. However, nuclear scaffold protease activity, which shows a considerable selectivity for lamins A/C and may be involved in derivation of the 46 kD protein, increased in parallel to the mitotic response and increases in nucleoside triphosphatase, as assessed using a nonspecific (Azocoll) protease assay. Assays with a specific tyrosine-containing substrate (Z-Y-Sbenzyl) showed an increase that mirrored that observed with the nonspecific substrate.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Alterations in nuclear scaffold constituents during carbon tetrachloride-induced liver regeneration. 170 32

The potentiation of carbon tetrachloride (CCl4) toxicity by chlordecone (CD) pretreatment in different animal models is well established. However, these studies have only dealt with hepatotoxicity. The present study was initiated to determine whether CD preexposure potentiates CCl4 neurotoxicity in gerbils. Gerbils were chosen for the reason that the metabolism of CD in gerbil is similar to that of humans. Gerbils (50-80 g), fed on diet without or with CD (10 ppm) for 15 d, were challenged with a single dose of CCl4 (15 microliters, ip). Ca(2+)-ATPase and calmodulin (CaM) activities were determined in gerbil brain P2 fraction and cytosol, respectively, at intervals of 0.5, 2, 6, 12, and 24 h after CCl4 administration. Ca(2+)-ATPase and CaM activities were decreased at 0.5 and 2 h in both CD-preexposed and CCl4-treated gerbils. However, CaM activity returned to normal levels after 6 h and Ca(2+)-ATPase activity showed 80% recovery after 2 h. In vitro experiments showed that CCl4 alone at 5 microM concentration inhibited Ca(2+)-ATPase activity up to 50%. Combination of CD (0.5 microM) and CCl4 (1 and 5 microM) on Ca(2+)-ATPase activity showed no additive effect in vitro. Interaction between CCl4 and CaM was studied in the presence and absence of CD by monitoring NPN fluorescence. The decrease in NPN fluorescence observed with CCl4 was not potentiated by CD preincubation. These data suggest that CD does not enhance CCl4-induced alterations of Ca(2+)-ATPase and CaM activities in gerbil brain.
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PMID:Combined effects of carbon tetrachloride and chlordecone on calmodulin activity in gerbil brain. 171

The time-course of some alterations produced in erythrocytes during the onset of CCl4-induced liver cirrhosis was studied in rats. Erythrocyte membranes were isolated to measure Na+, K+ and Ca+2-ATPase activities. Membrane lipid composition was determined to calculate the cholesterol/phospholipid ratio and serum samples were used to measure lipoperoxidation. The results demonstrated that as CCl4 treatment progressed, serum lipoperoxidation and membrane cholesterol/phospholipid ratio increased while ATPase activities decreased. ATPase activities in red blood cells of cirrhotic rats were 50% below normal values but those determined in cells of animals treated simultaneously with CCl4 + silymarin were significantly improved. Silymarin co-treatment also preserved the normal cholesterol/phospholipid ratio in the membranes. Our results suggest that the measure of ATPase activities in erythrocytes membranes could be a simple, safe and useful early marker of liver damage and also valuable to test the effectiveness of a given drug therapy.
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PMID:Erythrocyte defects precede the onset of CCl4-induced liver cirrhosis. Protection by silymarin. 184 33

In vivo administration of CCl4 (2.5 ml/kg, body wt.) to rats results in an early and then progressive inhibition of the high affinity Ca2(+)-ATPase activity in rat liver plasma membranes. The derangement to the Ca2(+)-ATPase seems to be independent on a 'solvent effect' of the agent since the in vitro addition of increasing concentrations of either CCl4 or ethanol to control plasma membranes does not affect the enzymatic activity. By using the technique of vitamin E pretreatment of experimental animals we show that the damage to the Ca2(+)-ATPase seems to follow a two-step kinetics. The early inhibition of the enzyme is not prevented by alpha-tocopherol supplementation and seems then unrelated to lipid peroxidative processes. The same procedure is however able to affort a significant protection against the exacerbation of the damage to the Ca2(+)-ATPase becoming evident late during the course of CCl4 intoxication. The high affinity Ca2(+)-ATPase is affected in vitro by 4-hydroxy-nonenal (HNE), a major end-product of lipid peroxidation interacting with -SH groups. Similar results were obtained after the addition to the incubation medium of sulphydryl reagents. The possible mechanisms involved in Ca2(+)-ATPase inhibition are discussed in relation to the development of CCl4 toxicity and to the role of lipid peroxidative processes.
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PMID:Inhibition of the high affinity Ca2(+)-ATPase activity in rat liver plasma membranes following carbon tetrachloride intoxication. 213 79

Loss of calcium regulation across the plasma membrane of hepatocytes is responsible for irreversible cell damage by CCl4. The mode of action of colchicine in CCl4 acute liver damage is not completely understood. We followed the time courses of the changes in lipoperoxidation, the activities of liver plasma membrane Ca2(+)-ATPase, gamma-glutamyl transpeptidase and alkaline phosphatase, as well as the time courses of serum markers of liver damage in rats acutely intoxicated with CCl4. We assessed the effects of colchicine in this model and evaluated the effect of this drug on liver cytochrome P-450. Increased lipoperoxidation is the earliest and shortest lasting effect of CCl4 in the liver and is followed by a decrease in the activities of plasma membrane-bound enzymes. The alterations in serum enzymes showed a slower onset and were more protracted. Colchicine pretreatment produced a small decrease in cytochrome P-450 in the liver but completely prevented most of the changes produced by CCl4 in lipoperoxidation, liver plasma membrane enzyme activities and serum enzyme activities. We conclude that CCl4 metabolites trigger lipoperoxidation and then produce a longer lasting change in the plasma membrane, which thus allows calcium accumulation. Colchicine prevents the early mechanisms of CCl4 damage, and its effect on cytochrome P-450 perhaps plays only a contributory role.
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PMID:CCl4-induced lipoperoxidation triggers a lethal defect in the liver plasma membranes. 213 83

The hepatotoxicity of CCl4 is mediated through its initial reduction by cytochrome P-450 to the CCl3.radical. This radical then damages important metabolic systems such as the ATP-dependent microsomal Ca2+ pump. Previous studies from our laboratory on isolated microsomes have shown that NADPH in the absence of toxic agents inhibits this pump. We have now found in in vitro incubations that CCl4 (0.5-2.5 mM) enhanced the NADPH-dependent inhibition of Ca2+ uptake from 28% without CCl4 to a maximum of 68%. These concentrations are in the range found in the livers and blood of lethally intoxicated animals (Dambrauskas, T., and Cornish, H. H. (1970) Toxicol. Appl. Pharmacol. 17, 83-97; Long, R.M., and Moore, L. (1988) Toxicol. Appl. Pharmacol. 92, 295-306) and are toxic to cultured hepatocytes (Long, R. M., and Moore, L. (1988) Toxicol. Appl. Pharmacol. 92, 295-306). The inhibition of Ca2+ uptake was due both to a decrease in the Ca2(+)-dependent ATPase and to an enhanced release of Ca2+ from the microsomes. The NADPH-dependent CCl4 inhibition was greater under N2 and was totally prevented by CO. GSH (1-10 mM) added during the incubation with CCl4 prevented the inhibition. This protection was also seen when the incubations were performed under nitrogen. When samples were preincubated with CCl4, the CCl4 metabolism was stopped, and then the Ca2+ uptake was determined; GSH reversed the CCl4 inhibition of Ca2+ uptake. This reversal showed saturation kinetics for GSH with two Km values of 0.315 and 93 microM when both the preincubation and the Ca2+ uptake were performed under air, and 0.512 and 31 microM when both were performed under nitrogen. Cysteine did not prevent the NADPH-dependent CCl4 inhibition of Ca2+ uptake. CCl4 increased lipid peroxidation in air, but no lipid peroxidation was seen under nitrogen. Lipid peroxidation was only modestly reversed by GSH. GSH did not remove 14C bound to samples preincubated with the 14CCl4. Although EDTA (100 microM) decreased the CCl4 inhibition, the metal-complexing agents deferoxamine (100 microM) and diethyldithiocarbamate (100 microM) had no effect on the inhibition of the pump. Similarly, the reactive oxygen scavengers catalase (65 micrograms/ml), superoxide dismutase (15 micrograms/ml), mannitol (10 mM), and dimethyl sulfoxide (50 mM) also had no effect. Our results suggest that the initial toxicity of CCl4 for the Ca2+ pump results from the metabolism of CCl4 to the CCl3. radical. This radical then directly oxidizes the Ca2+ pump, leading to decreased Ca2+ uptake.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The in vitro NADPH-dependent inhibition by CCl4 of the ATP-dependent calcium uptake of hepatic microsomes from male rats. Studies on the mechanism of the inactivation of the hepatic microsomal calcium pump by the CCl3.radical. 214 Mar 58

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