UNIPROT:P06889 - FACTA Search

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Query: UNIPROT:P06889 (Mol)
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Administration of isopropanol (2.5 ml/kg, po) or chlordecone (15.2 mg/kg, po) potentiated the release of glutamic oxaloacetic transaminase (GOT) into serum 17- or 7-fold, respectively, in rats exposed subsequently to 30 microliter CCl4/kg, po. Hepatocytes isolated from isopropanol-treated rats, incubated with low concentrations of CCl4 (0.3 or 0.9 mM), did not have significant increase in the amount of GOT released after 30 min compared to control cells exposed to CCl4. However, at 3 hr cells from isopropanol-treated rats released 10- or 3-fold more GOT when exposed to 0.3 or 0.9 mM CCl4, respectively, than control cells exposed to CCl4. By hour 5 of incubation this differential of GOT release was not observed. The same dose and time-dependent pattern of potentiated GOT release upon exposure of CCl4 was seen in hepatocytes obtained from chlordecone-treated rats. These results indicate that the potentiation by isopropanol or chlordecone of CCl4-induced release of GOT from liver is retained through the procedures of cell isolation.
Exp Mol Pathol 1985 Apr
PMID:Isopropanol and chlordecone potentiation of carbon tetrachloride liver injury: retention of potentiating action in hepatocyte suspensions prepared from rats given isopropanol or chlordecone. 257 44

We present the initial findings of a theoretical study of hydrogen bond formation between two formamide molecules in water and in carbon tetrachloride. These systems were chosen as the simplest models for secondary structure formation in the polar environment near the protein surface and the apolar environment of the protein interior. We have employed thermodynamic simulation methods to obtain absolute binding free energies and free energy profiles for the formation of peptide hydrogen bonds in the two solvents. We find that the amide hydrogen bond is stable by 8.4 kcal/mol in CCl4, and by 0.3 kcal/mol in water. Our results indicate also that the hydrogen-bonded dimer is 2.2 kcal/mol more stable in water than it is in CCl4. We compare our results with those from experiment, and discuss their use in interpreting mechanisms of protein folding.
J Mol Biol 1989 Oct 20
PMID:Thermodynamics of amide hydrogen bond formation in polar and apolar solvents. 258 11

The toxicity of carbon tetrachloride (CCl4) in monolayer cultures of primary hepatocytes was investigated at oxygen concentrations that prevail in the liver under conditions that range from normoxia to hypoxia: 0.5, 1, 2, and 20% O2. CCl4 was administered in the vapor phase at concentrations that produce aqueous concentrations at 37 degrees C of 0.4, 2.0, and 4.0 mM. Damage was assayed by leakage of aspartate transaminase and the inclusion of Trypan Blue immediately after the 2-hr incubation and after an additional 6-hr incubation in 20% O2. Only in the case of 0.5% O2 and 4 mM CCl4 were the monolayers damaged (18%) immediately after the 2-hr exposure; all other exposed cells were undamaged at that time point and the dose response of cell death as a function of CCl4 and oxygen concentration was not evident until the 6-hr time point. The monolayers exposed to 4 mM CCl4 and 1, 2, or 20% O2 exhibited little immediate damage but were all 100% dead 6 hr later. The monolayers exposed to 2 mM CCl4 and 0.5, 1, 2, or 20% O2 were 53, 48, 40, and 22 +/- 2% dead after 6 hr, respectively. These results suggest that effects of CCl4 exposure, for example alterations in the function or synthesis of essential proteins, require several hours to affect cell viability.
Exp Mol Pathol 1989 Apr
PMID:Interaction of hypoxia and carbon tetrachloride toxicity in hepatocyte monolayers. 270 81

Ammonia clearance, portal blood ammonia, and amino acid concentrations were studied during induction of cirrhosis by carbon tetrachloride in rats. Exposure to CCl4 vapors twice weekly for 7-16 weeks doubled orotic acid excretion. If exposure was discontinued for 7 days, the orotic acid excretion decreased despite the presence of cirrhosis proven histologically. Replacement of dietary casein with soybean protein eliminated the CCl4-induced orotic aciduria in growing rats but not in adults. Supplementation of casein with 1.5% arginine did not prevent CCl4-induced orotic aciduria. [14C]Orotate uptake into RNA and DNA of liver was not impaired. Perfusion of livers of cirrhotic animals with ammonia concentrations between 0.2 and 3.0 mM revealed no significant decreases in urea synthesis rates due to cirrhosis and no increase in the tendency to make orotic acid at a given ammonia concentration. However, ammonia uptake by cirrhotic livers was significantly reduced, resulting in higher ammonia concentrations in the effluent when there was moderate-to-severe cirrhosis. Portal blood samples taken from rats exposed to CCl4 had higher ammonia concentrations as cirrhosis worsened. The results lend support to the "intact hepatocyte" hypothesis of cirrhosis which attributes metabolic abnormalities to intrahepatic shunts.
Exp Mol Pathol 1989 Jun
PMID:Orotic acid overproduction in experimental cirrhosis of rats. 272 54

Several hepatotoxic agents with varied chemical mechanisms of toxicity (acetaminophen, diquat, and CCl4) depress membrane calcium pumps and/or enhance the permeability of membranes to calcium. To probe the relevance of these findings to maintenance of calcium homeostasis after toxins in vivo, we measured the activity of glycogen phosphorylase a, as an index of cytosolic free [Ca2+], in freeze-clamped liver samples obtained at several times after the toxin dose. Both acetaminophen and diquat caused significant increases of phosphorylase a activity, and activity remained elevated for several hours after the dose. Significantly, the administration prior to diquat of desferrioxamine, which offers protection against the liver necrosis and depression of microsomal Ca2+ accumulation observed after diquat alone (Tsokos-Kuhn et al., Mol Pharmacol 34: 209-214, 1988), decreased phosphorylase activation. Activation of phosphorylase was observed also after CCl4 administration, as previously reported by Long and Moore (Biochem Pharmacol 35: 4131-4137, 1986). We conclude that perturbations in liver membrane Ca2+ regulation observed after administration of these hepatotoxins in vivo correlate directly with phosphorylase a activity, thereby providing additional in vivo evidence for an alteration of Ca2+ homeostasis early in the development of the liver damage produced by these chemicals.
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PMID:Evidence in vivo for elevation of intracellular free Ca2+ in the liver after diquat, acetaminophen, and CCl4. 278 60

Collagenolytic activity has been measured in insoluble sediments of normal and CCl4-induced cirrhotic rat liver. Two techniques were used: in one assay, the insoluble liver sediments were incubated with a radioactively labeled exogenous substrate; in the other assay, the endogenous collagen present in the insoluble liver sediments served as the substrate. Animals in various stages of development of CCl4-induced cirrhosis were used. Results suggest that in rat liver cirrhosis collagenolytic activity assayed with both techniques appears to increase when expressed as weight of collagen degraded in 24 hr. On the other hand, when the data are corrected for the variable amounts of collagen present in the insoluble liver sediments and expressed as weight of collagen degraded in 24 hr per unit weight of total collagen incubated, collagenolytic activity is shown to be significantly decreased below the normal level and to remain so for prolonged periods.
Exp Mol Pathol 1987 Dec
PMID:Collagenolytic activity in experimental cirrhosis of the liver. 282 36

CCl4 has been shown previously to be metabolized to the trichloromethyl radical (.CCl3) and to a novel oxygen-containing carbon dioxide anion radical (.CO2-) in the perfused rat liver and in vivo. Since the role of free radicals in CCl4-induced hepatotoxicity is unclear, these studies were designed to determine if a relationship between .CO2- formation and halocarbon-induced hepatotoxicity exists. CCl4 or bromotrichloromethane (CBrCl3) was infused into livers from control or phenobarbital-treated rats perfused with either nitrogen- or oxygen-saturated Krebs-Henseleit bicarbonate buffer. Samples of effluent perfusate and chloroform/methanol extracts of liver were analyzed by ESR spectroscopy for free radical adducts following infusion of halocarbon and the spin trap, phenyl-t-butylnitrone (PBN). Hyperfine coupling constants and 13C-isotope effects observed in the ESR spectra of organic extracts of liver demonstrated the presence of the PBN radical adduct of .CCl3 from both halocarbons. Radical adducts in aqueous extracts of liver and effluent perfusate had hyperfine coupling constants and 13C-isotope effects identical to those of PBN/.CO2- generated chemically from formate. The PBN/.CO2- radical adduct was also observed in urine following the intragastric administration of CBrCl3 and PBN. Detection of PBN/.CO2- adducts in the effluent perfusate was decreased 3- to 4-fold by DIDS (0.2 mM), an inhibitor of the plasma membrane anion transport system. The rate of formation of PBN/.CO2- was decreased 2- to 3-fold following inhibition of cytochrome P-450-dependent monooxygenases by metyrapone (0.5 mM) and was increased about 2-fold by induction of cytochrome P-450 by phenobarbital pretreatment. Toxicity of halocarbons in the perfused liver was assessed by measuring the release of lactate dehydrogenase (LDH) into the effluent perfusate in livers from phenobarbital-treated rats under conditions identical to those employed to detect radical adducts (i.e., during the infusion of CCl4 or CBrCl3 into livers perfused with either nitrogen- or oxygen-saturated perfusate). Under all conditions studied, PBN/.CO2- was detected in the effluent perfusate within 2-4 min. Metabolism of halocarbons to PBN/.CO2- was 6- to 8-fold faster during perfusion with nitrogen-saturated rather than with oxygen-saturated perfusate. Concomitantly, liver damage detected from LDH release occurred much sooner during halocarbon infusion in the presence of nitrogen-saturated rather than oxygen-saturated perfusate. A good correlation between the rate of formation of PBN/.CO2- and the time of onset of LDH release following halocarbon infusion was observed.(ABSTRACT TRUNCATED AT 400 WORDS)
Mol Pharmacol 1988 Mar
PMID:The carbon dioxide anion radical adduct in the perfused rat liver: relationship to halocarbon-induced toxicity. 283 23

We have tested the effects of hyperbaric oxygen on necrosis of rat liver induced by the administration of several toxins. The extent of liver necrosis was determined 24 h after the administration of the toxins by measurement of serum levels of alanine and aspartate amino-transferases and by histologic and ultrastructural analyses. Treatment with hyperbaric oxygen decreases carbon tetrachloride (CCl4)-induced necrosis in a manner dependent upon duration and pressure of oxygen exposure. Pretreatment of rats with phenobarbital diminishes this protective effect. Hyperbaric oxygen treatment before or immediately after CCl4 intoxication is protective. Loss of protection is rapid; hyperbaric oxygen treatment 6 h after CCl4 intoxication augments the liver necrosis. No delayed necrogenic effects of CCl4 are seen in the animals treated with hyperbaric oxygen immediately. Hyperbaric oxygen augments the liver necrosis induced by acetaminophen, bromobenzene, dimethylnitrosamine or thioacetamide. This augmented necrosis is averted by prolonged treatment with hyperbaric oxygen. Hyperbaric oxygen has no effect on liver injury induced by galactosamine or lipopolysaccharide. We conclude that hyperoxia decreases the hepatic necrosis induced by compounds which undergo reductive biotransformation by the cytochrome P-450 monooxygenase system; hyperoxia augments the necrosis induced by compounds which undergo oxidative biotransformation by this system. Biotransformation of toxins appears to be nonspecifically inhibited by hyperoxic exposure of long duration.
Virchows Arch B Cell Pathol Incl Mol Pathol 1986
PMID:Effect of hyperoxia on liver necrosis induced by hepatotoxins. 287 23

Short-term exposure of isolated rat hepatocytes in suspension to a low dose of CCl4 (20 micrograms/ml) leads within minutes to characteristic structural alterations. The earliest reaction is a disappearance of the microvilli border 5 min after starting the incubation. After 10 min the number of Golgi VLDL is decreased by about 80% and reaches zero after 20 min. The reduction in Golgi VLDL is associated with a decrease in the volume density of the Golgi complexes by about 50% compared with controls and by a marked elevation of intracytoplasmic and intralysosomal lipid deposits after 20 min incubation. Concomitantly with these alterations the total number of VLDL particles within single and multiple particle secretory vesicles located along the cell periphery decreases by about 50% 10 min after CCl4 exposure. This is followed 10 min later by a significant increase of about 20% compared with the corresponding controls. The elevation in the total number of VLDL is combined with an increase in the number of the multiple particle secretory vesicles. The particle content per vesicle, however; is significantly lower compared with controls. No reaction is detectable in the mitochondria, whereas the amount of RER appears to be decreased and that of the SER increased. The incubation of 14C-sodium palmitate prelabeled hepatocytes in the presence of CCl4 leads to a significantly higher content of labeled lipids in the total Golgi fraction and in the cytosol 20 min after CCl4 administration, whereas considerably less labeled lipids are secreted into the incubation medium.(ABSTRACT TRUNCATED AT 250 WORDS)
Virchows Arch B Cell Pathol Incl Mol Pathol 1988
PMID:Short-term effects of carbon tetrachloride on the lipoprotein secretion in isolated rat hepatocytes. 289 44

Serum galactosylhydroxylysyl glucosyltransferase (S-Glu-Gal-Hyl-Tase), liver galactosylhydroxylysyl glucosyltransferase (L-Glu-Gal-Hyl-Tase), liver hydroxylysyl galactosyltransferase (L-Gal-Hyl-Tase), and liver prolyl hydroxylase (L-PH) activities were measured in rats during the development of CCl4-induced cirrhosis (0.2 ml of 33% CCl4 in light mineral oil two times weekly for 10 weeks followed by 6 weeks of no treatment). Serum and liver markers of collagen synthesis increased in a time-dependent manner reaching maximum activity at 6 weeks (S-Glu-Gal-Hyl-Tase, two times; L-PH, two times). These enzyme levels returned to normal during the 4-week recovery period. In a separate 4-week experiment, colchicine (10 micrograms/rat/day) was administered with CCl4. Colchicine prevented the increase in S-Glu-Gal-Hyl-Tase, L-Glu-Gal-Hyl-Tase, and L-Gal-Hyl-Tase induced by CCl4 and resulted in a smaller increase in L-PH. These results demonstrate that S-Glu-Gal-Hyl-Tase elevation occurs following CCl4 because of increased liver collagen synthetic activity and the hepatocellular injury produced by CCl4.
Exp Mol Pathol 1987 Apr
PMID:Enzyme markers of collagen synthesis in carbon tetrachloride-induced fibrosis and during colchicine modification of CCl4-induced liver injury. 303 Jul 97

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