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Query: UNIPROT:P06889 (Mol)
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Hepatocytes were isolated from male Sprague-Dawley rats 30 min after oral challenge with carbon tetrachloride (CCl4), or 1 hr after ip injection of D(+)-galactosamine (GAL). Cell preparations of comparable yield and initial viability were obtained from toxin-treated and respective control animals with equivalent 1-hr attachment efficiencies to tissue culture plastic. Cells from toxin-treated rats exhibited significant degeneration over 48 hr in culture. This degeneration included loss of viable cell density on the monolayer and increased lactate dehydrogenase activity in the culture media compared to controls. Toxicity expressed in culture was dose dependent for both CCl4 (0.1-2.5 ml/kg) and GAL (100-400 mg/kg). Loss of cell viability in vitro and ultrastructural degeneration followed a time course consistent with hepatocellular necrosis produced by these agents in vivo. As a model for studying late occurring events in the progression from initiation of toxic cell injury to cell death, this methodology offers several potential advantages over strict in vivo or in vitro models. The analytical advantages of an in vitro cell model are incorporated with initiation of injury in vivo by physiologically relevant doses of hepatotoxins. Limited bioactivating potential of monolayer hepatocytes, and time course limitations of suspension hepatocytes for toxicity studies, are also circumvented in this model.
Exp Mol Pathol 1987 Feb
PMID:Isolation and maintenance of monolayer hepatocytes from the livers of toxin-treated rats. 380 38

Certain biochemical parameters of acute liver injury induced by carbon tetrachloride were investigated in rats treated with prostacyclin (PGI2) and two of its derivatives. Serum glutamate oxalacetate transaminase elevation and both triglyceride accumulation and reduction of glycogen content in liver were significantly suppressed by PGI2, 7-oxo-PGI2, and 20-methyl-13,14-didehydro-2,4-m-interphenylene-PGI2 48 hr after the injury. Prostacyclins partially restored some of the parameters of injury even in doses of 10 micrograms/kg ip. When the compounds were given 24 hr after CCl4 intoxication, much more pronounced protection was observed than in the case of treatments 1 hr before administration of the hepatotoxin. Thus, all tested prostacyclins exerted significant protective effects on acute liver damage which is obtained mainly in the second phase of the injury.
Exp Mol Pathol 1985 Apr
PMID:Hepatoprotective effects of prostacyclins on CCl4-induced liver injury in rats. 388 60

Lethal cell injury from hepatotoxic drugs has been postulated to result from an alteration in cell Ca2+ homeostasis. ATP-dependent Ca2+ uptake by the plasma membrane has a sulfhydryl-dependent functional moiety and, therefore, could be vulnerable to chemically reactive drug intermediates. Thus, alkylating hepatotoxins given in vivo were examined for their ability to inhibit Ca2+ accumulation by plasma membrane vesicles isolated from livers of adult male rats. ATP-dependent Ca2+ accumulation was decreased 62% by bromobenzene, 76% by acetaminophen, and 92% by CCl4. Mitochondrial Ca2+ uptake was minimally affected by the toxins, and only CCl4 affected Ca2+ accumulation by liver microsomes. The effect of acetaminophen on plasma membrane Ca2+ uptake was apparent as early as 45 min postdose. Depletion of protective intracellular GSH by diethyl maleate treatment (400 mg/kg) alone minimally decreased control plasma membrane uptake activity, although the GSH depletion markedly potentiated the effect of acetaminophen on the plasma membrane and on necrosis. Alkylation of sites on the plasma membrane may be a key chemical-macromolecule interaction in drug-induced liver necrosis, and inhibition of plasma membrane Ca2+ regulation may provide a connecting link between the alkylation hypothesis and the perturbed Ca2+ homeostasis hypothesis of lethal cell injury.
Mol Pharmacol 1985 Jul
PMID:ATP-dependent calcium uptake by rat liver plasma membrane vesicles. Effect of alkylating hepatotoxins in vivo. 402 97

The effects of the administration of tryptophan and/or cysteine on carbon tetrachloride (CCl4)-induced hepatic injury were investigated. Rats received CCl4 (1 ml/kg ip) followed 6 hr later by tryptophan (300 mg/kg) and/or cysteine (950 mg/kg) via stomach tube and rats were killed after 24 hr. Treatment with tryptophan, cysteine, or both reduced the degree of hepatic necrosis observed histologically. While CCl4 caused polyribosomal disaggregation and decreased [14C]leucine incorporation into liver proteins in vitro and in vivo, treatment with tryptophan, cysteine, or both caused a shift in polyribosomes toward heavier aggregation and protein synthesis was increased. Serum activities of lactic dehydrogenase (LDH), glutamate oxaloacetate transaminase, glutamate pyruvate transaminase, and gamma-glutamyl-transpeptidase were markedly increased after CCl4 alone but after subsequent treatment with cysteine or with tryptophan and cysteine appreciable decreases occurred. Glutathione concentration decreased but total amount remained constant in the livers of CCl4-treated rats while subsequent treatment with cysteine alone or together with tryptophan elevated both levels of glutathione. Using isolated hepatocytes, CCl4 caused decreases in cell viability, in release of LDH, and in [14C]leucine incorporation into protein. Treatment with CCl4 and tryptophan and/or cysteine revealed that cysteine alone or with tryptophan improved cell viability and decreased LDH release of the cells, while tryptophan alone or with cysteine improved protein synthesis. Upon cytologic evaluation, the isolated hepatocytes revealed membrane distortions after CCl4 alone but these were less marked after CCl4 plus tryptophan, cysteine, or both (most improvement). Thus, tryptophan and cysteine act in a beneficial manner against CCl4-induced hepatic injury in the rat.
Exp Mol Pathol 1985 Dec
PMID:Protective effect of tryptophan and cysteine against carbon tetrachloride-induced liver injury. 406 14

Isolated rat hepatocytes were incubated with carbon tetrachloride (CCl4) at a concentration of 0.2 mol CCl4/ml of incubation medium. The ultrastructural alterations and release of lactate dehydrogenase (LDH) and glutamate-oxaloacetate transaminase (GOT), were recorded after different periods of incubation. After 5 min incubation with CCl4, morphological changes observed by electron microscopy, involved the plasma membrane. The endoplasmic reticulum and mitochondria were altered later. These morphological alterations were accompanied by an early release of LDH and GOT into the incubation medium. It is concluded that, in contrast with its in vivo effects, in vitro CCl4 can induced an early morphological alteration of the hepatocyte plasma membrane before damaging the endoplasmic reticulum.
Virchows Arch B Cell Pathol Incl Mol Pathol 1981
PMID:The effect of carbon tetrachloride on isolated rat hepatocytes. 611 17

In a subchronic dietary pretreatment protocol chlordecone (CD) is a powerful potentiator of CCl4 hepatotoxicity, as indicated by biochemical, hepatofunctional, histopathological, and lethality parameters. The purpose of this investigation is to further explore the CD + CCl4 interaction in an acute CD pretreatment protocol and to compare the two pretreatment protocols in terms of their effect upon quantitative histopathology, serum enzymes, and lethality. Groups of four male rats received one of the following four pretreatments: chlordecone (10 mg/kg; single po), mirex (10 mg/kg; single po), phenobarbital (PB) (80 mg/kg/day for 2 successive days; ip in 0.9% saline), or corn oil vehicle (1 ml/kg; single po). Twenty-four hours later, the rats were given a single ip injection of CCl4 (0.1 ml/kg). Twenty-four hours after CCl4 administration, serum enzymes (SGPT, SGOT, and ICD) were measured and the livers removed and fixed in 10% buffered formalin for histological evaluation. The LD50 were determined by the method of moving averages. CD + CCl4 was the most hepatotoxic combination, in terms of serum enzyme elevations and lethality followed by PB + CCl4. The PB + CCl4 combination caused a greater degree of hepatocyte necrosis. These findings indicate that the acute pretreatment with CD enhances hepatotoxicity and the lethality of CCl4 in a fashion qualitatively similar to the subchronic pretreatment protocol.
Exp Mol Pathol 1983 Aug
PMID:Acute hepatotoxicity and lethality of CCl4 in chlordecone-pretreated rats. 619 11

Previous studies have shown that a chlorinated pesticide, chlordecone (Kepone), greatly potentiates carbon tetrachloride (CCl4) hepatotoxicity and lethality (Curtis, L.R., Williams, W.L., and Mehendale, H.M. (1979). Toxicol. Appl. Pharmacol. 51, 283-293; Curtis, L.R., and Mehendale, H.M. (1980). Drug Metab. Dispos. 8, 23-27). The present study describes sequential morphologic changes which occurred in livers of rats given a "nontoxic" level of chlordecone (10 ppm for 15 days) followed by a single injection of CCl4 (0.1 ml/kg). The hepatic alterations were examined 1 to 36 hr after exposure of the rats to CCl4. Those changes were compared to hepatic alterations which occurred in rats that received the same dose of chlordecone (10 ppm for 15 days) or a single injection of CClr (0.1 ml/kg) alone. The only change noted in livers from rats that received chlordecone alone was focal increase in smooth endoplasmic reticulum (SER) of hepatocytes at 24 hr and continuing throughout the time course of the experiment. Livers from animals that received CCl4 alone showed morphologic changes at 6 hr consisting of glycogen loss, increase in SER, and dilatation of rough endoplasmic reticulum (RER) in pericentral hepatocytes. Accumulation of small lipid droplets was also noted in midzonal hepatocytes. After 6 hr, there was no further increase in severity of injury. At 12 hr recovery was noticeable and, by 36 hr, livers from the CCl4 group appeared normal. Prior administration of chlordecone greatly potentiated pathologic changes in livers of animals that received CCl4. By 4 hr, there was total loss of glycogen in hepatocytes throughout the entire lobule. Small lipid droplets were present in pericentral, midzonal and periportal hepatocytes. Hepatocytes with extremely dilated RER were randomly scattered throughout the entire lobule. At 6 hr, there was further accumulation of lipid in the form of large droplets in hepatocytes. Focal, necrotic cells surrounded by polymorphonuclear leukocytes were randomly distributed throughout the lobule. The number of necrotic foci had progressively increased at the 12- and 24-hr intervals. By 36 hr, confluent areas of necrosis in pericentral and midzonal areas were observed in livers of some animals. This study indicates that although the combination of chlordecone and CCl4 produces much greater hepatic injury resembling damage due to a massive dose of CCl4, histologically, some differences in the progression and distribution of hepatocellular damage within the lobular architecture of the liver are evident.
Exp Mol Pathol 1983 Oct
PMID:Chlordecone-induced potentiation of carbon tetrachloride hepatotoxicity: a light and electron microscopic study. 619 12

The present study, conducted over a time course of 36 hr after CCl4 administration, describes sequential morphometric and biochemical changes which occur in livers of rats exposed to a combination of low levels of chlordecone (10 ppm for 15 days) and a single ip injection of CCl4 (0.1 ml/kg). Those changes were compared to hepatic alterations which occur in rats that received the same dose of chlordecone or CCl4 alone. Biochemical studies showed only trivial increases in levels of glutamic-pyruvic transaminase (GPT), glutamic-oxalacetic transaminase (GOT), and moderate but temporary increases in isocitrate dehydrogenase (ICD) after CCl4 alone. The combination of chlordecone and CCl4 resulted in significantly greater elevations of all three serum enzymes at all time intervals examined. Morphometric data showed no difference between normal diet controls and animals exposed to chlordecone alone as far as numerical density of hepatocytes or volume densities of hepatocytes with glycogen, lipid, dilated rough endoplasmic reticulum (RER), pyknosis, or mitoses. Morphometric analysis of livers from animals that received CCl4 alone showed decreases in numerical density, temporary decrease in percentage of hepatocytes containing glycogen, an increase in hepatocytes containing lipid, temporary increase in hepatocytes with dilated RER, and temporary increases in pyknotic nuclei. Soon after the initial hepatic injury was histologically evident between 4 and 6 hr, the number of mitoses increased dramatically and this progressed until complete recovery from CCl4 damage. From all indices of damage, complete recovery was evident by 36 hr after CCl4 administration.(ABSTRACT TRUNCATED AT 250 WORDS)
Exp Mol Pathol 1983 Oct
PMID:Chlordecone-induced potentiation of carbon tetrachloride hepatotoxicity: a morphometric and biochemical study. 619 13

The effect of several halomethanes on protein synthesis has been studied in isolated hepatocytes. When cells are added to medium preequilibrated with CCl4 or CBrCl3, protein synthesis is inhibited after a lag period of 4 to 10 min. The concentrations of CBrCl3, CCl4, and CHCl3 which cause a 50% inhibition of protein synthesis are about 6 microM, 400 microM, and 4 mM, respectively. This order of potency parallels the rate at which these compounds are metabolized by the hepatic mixed function oxidase, suggesting that metabolism is required for toxicity. The inhibitory effect caused by 18 min of exposure to CBrCl3 is not reversed when the toxin is removed, indicating that inhibition involves some irreversible modification of cellular material. Unexpectedly, the inhibitory effect caused by 18 min of exposure of CCl4 is about 30-40% reversed when the toxin is removed. This suggests that CCl4 causes inhibition not only by a metabolism-dependent (irreversible) pathway, but by a metabolism-independent (reversible) mechanism as well. Extracellular Ca2+ is not required for CCl4 inhibition of protein synthesis.
Exp Mol Pathol 1984 Dec
PMID:Halomethane-induced inhibition of protein synthesis in isolated hepatocytes. 651 May 7

The mechanism of metabolism of carbon tetrachloride (CCl4) to phosgene (COCl2) in rat liver microsomes was investigated. When the oxygen dependency of the reaction was studied, it was found that the rate of the reaction increased as the oxygen concentration in the reaction atmosphere was decreased from 100% to 5%. Decreasing the oxygen concentration below 5% caused a decrease in the rate of the reaction. The reaction was not inhibited by superoxide dismutase or catalase nor was it supported by cumene hydroperoxide. A reconstituted form of cytochrome P-450 from phenobarbital-pretreated rats metabolized CCl4 to COCl2. These results are consistent with a mechanism we call reductive oxygenation. The first step of the reaction is the cytochrome P-450-dependent reductive dechlorination of CCl4 to trichloromethyl radical (CCl3.). This intermediate is trapped by oxygen to form trichloromethylperoxyl radical (CCl3OO.), which decomposes to COCl2 and possibly an electrophilic form of chlorine.
Mol Pharmacol 1984 Mar
PMID:Reductive-oxygenation mechanism of metabolism of carbon tetrachloride to phosgene by cytochrome P-450. 670 May 77


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