UNIPROT:P06889 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: UNIPROT:P06889 (Mol)
630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have observed a marked increase in Ca2+ permeability of plasma membranes isolated from rats treated in vivo with CCl4 (2 ml/kg), after phenobarbital induction and overnight fast. Regulation of intracellular free Ca2+ is vital to cell viability and function, and the increased plasma membrane permeability, if representative of a change occurring in vivo, may be a critical biochemical determinant of CCl4-induced hepatic necrosis. Permeability to small cations of liver plasma membrane vesicles of control and CCl4-dosed rats was tested by two independent methods: 1) Ca2+ efflux after passive loading in 1 mM Ca2+, and 2) 86Rb+ uptake driven by valinomycin-induced K+ diffusion potential after 100 mM KCl-equilibrated vesicles were stripped of external K+ by cation exchange. Both indicated markedly increased permeability in plasma membranes after CCl4 in vivo. First order rate constants of biphasic Ca2+ efflux were 0.272 and 0.0516 min-1 for controls and 1.78 and 0.171 min-1 for vesicles from CCl4-treated animals. 86Rb+ uptake by CCl4 vesicles was 47% of control. Total calcium contents of plasma membranes (prepared in the absence of EGTA) by atomic absorption were 17.4 +/- 2.0 (control) and 10.9 +/- 1.2 (CCl4) nmol/mg of protein (means +/- SE, p less than 0.025). In correlation with altered biochemical function, we found 4-fold increases in the content of 11-, 12-, and 15-hydroxyeicosatetraenoic acids in plasma membranes of CCl4-treated rats. Although these specific oxidized fatty acids are unlikely to be ionophores, the ionophoretic properties of certain other oxygenated polyunsaturated fatty acids suggest a mechanism whereby accumulation of lipid oxidation products may be responsible for the altered membrane permeability we have observed after CCl4, and perhaps ultimately for cell death in CCl4-induced hepatic necrosis.
Mol Pharmacol 1986 Nov
PMID:Evidence for increased membrane permeability of plasmalemmal vesicles from livers of phenobarbital-induced CCl4-intoxicated rats. 309 27

Hepatotoxicity of carbon tetrachloride after chronic ethanol consumption was examined in rats fed a standard pellet diet and a 5 or 20% ethanol solution as a sole source of fluid for 1-100 weeks. Carbon tetrachloride hepatotoxicity in rats fed 5 and 20% ethanol (4.0 and 8.8 g of ethanol/kg body weight, respectively) for 1-100 weeks was markedly greater than that in control rats given water instead of ethanol, and the hepatotoxicity in rats fed 20% ethanol was more severe as compared with that in rats fed 5% ethanol at any time during a period of 100 weeks. The degree of the enhanced hepatotoxicity in rats fed both 5 and 20% ethanol did not change significantly during a period of 100 weeks. Moreover, the enhanced hepatotoxicity in the rats fed both 5 and 20% ethanol for 1-100 weeks is of the same degree as that in the rats that received 4.0 and 8.8 g of ethanol/kg body weight as a single dose, respectively. These experimental findings suggest that the effect of ethanol on the carbon tetrachloride hepatotoxicity is dependent on the daily amount of alcohol intake and is not affected by the duration of alcohol consumption.
Exp Mol Pathol 1988 Oct
PMID:Hepatotoxicity of carbon tetrachloride after chronic ethanol consumption. 316 6

Trifluoperazine (TFP) (50 mg/kg ip) administration to rats 6 or 10 hr after CCl4 (1 ml/kg ip in olive oil) significantly prevented liver necrosis but not fatty liver caused by the hepatotoxin at 24 hr as evidenced by either histology or electron microscopy. TFP given 6 hr after CCl4 significantly decreased the CCl4-induced increases in liver calcium content. TFP raised four to five times the liver glycogen content in control rats but was unable to modify decreased glycogen content of CCl4 poisoned animals. TFP administration increased phospholipid and protein synthesis as evidenced by studies on 32P incorporation into microsomal phospholipid and by experiments on [14C]leucine incorporation in microsomal protein fractions from control rat livers. No significant changes were observed in microsomal phospholipid degradation as studied by decay of label from 32P-prelabeled microsomal lipids or in increased protein degradation as evidenced by decay of label from [14C-guanidino]arginine-prelabeled microsomal proteins found in livers of control rats after TFP treatment. Electron microscopy observations of liver from control animals treated with TFP evidenced accumulation of glycogen in areas close to smooth endoplasmic reticulum (SER); large Golgi areas with an abundant number of lysosomes, and minor dilatation effects on the rough endoplasmic reticulum (RER) and nuclear membrane. Results suggest that TFP preventive effects might be due to the anticalmodulin actions of this drug.
Exp Mol Pathol 1988 Jun
PMID:Further studies on the late preventive effects of the anticalmodulin trifluoperazine on carbon tetrachloride-induced liver necrosis. 337 54

The mass density of protein crystals can be measured in Ficoll gradients as a function of hydrostatic pressure. Carbon tetrachloride-toluene mixtures provide convenient density markers, and the compressibility of these standards is reported. Measurements on tetragonal crystals of hen egg-white lysozyme yielded densities at room temperature of 1.2367(+/- 0.0010) g cm-3 at 1 atm and 1.2586(+/- 0.0017) g cm-3 at 1000 atm (1 atm = 101,325 Pa). When combined with the unit cell dimensions at these two pressures these values lead to an estimated compression (fractional change in volume) of the crystal solvent at 1000 atm of 0.0369(+/- 0.0054). This value is comparable to that of a 0.7 M solution of NaCl. From an approximate estimate of the Donnan effect for the crystal in the 1.4 M-NaCl mother liquor, the crystal solvent contains 0.8 M-Na+ and 2.5 M-Cl-. It is concluded that the compressibility of solvent in lysozyme crystals is, within experimental error, the same as bulk solvent and does not exhibit the dramatically altered compressibility expected of an ice or glass-like solid. The crystallographically observable water sites, 151 at 1 atm and 163 at 1000 atm, showed a tendency to increase the number of hydrogen bonds made to other water sites at the expense of hydrogen bonds made to protein. The explanation for this phenomenon is presently unknown. Water sites that occur in both structures tend to have comparable temperature factors and show some tendency to follow the pressure-induced changes in protein atom positions. The compression expected for the water molecules themselves is too small to be observable at the resolution of the X-ray data collected in this study.
J Mol Biol 1988 Mar 20
PMID:Effect of hydrostatic pressure on the solvent in crystals of hen egg-white lysozyme. 337 35

The effects of the administration of tryptophan on toxic cirrhosis induced by intermittent carbon tetrachloride (CCl4) intoxication in the rat were investigated. Rats received CCl4 (0.45 ml/100 g body wt ip) twice weekly for 10-14 weeks. Tryptophan (30 mg/100 g body wt) by stomach tube was administered 1 hr before killing. Tryptophan improved hepatic polyribosomal aggregation and [14C]leucine incorporation into protein in vitro of control rats as well as long-term CCl4-treated rats that had developed toxic cirrhosis. However, the effects were more marked in control than in experimental rats. Tryptophan administration induced an increase in labeled nuclear RNA release in vitro and a decrease in labeled tryptophan binding to nuclear protein in vitro of livers of rats receiving long-term CCl4 and of control rats. The results indicate that the stimulatory effects of a single administration of tryptophan in toxic cirrhotic livers are similar to, but somewhat less than, those which occur in livers of normal, control rats.
Exp Mol Pathol 1988 Aug
PMID:Effect of tryptophan on toxic cirrhosis induced by intermittent carbon tetrachloride intoxication in the rat. 339 62

The hydrophobicity of the peptide C=O ... H-N hydrogen-bonded group is an important parameter that determines the structure of proteins in water and in biological membranes, and therefore the free energy of transferring this group from water to non-polar solvents should be determined accurately. The essential work on this problem was carried out by Klotz and co-workers, and has been summarized elsewhere. Using N-methylacetamide as a model peptide, the free energies of the following processes were determined; (1) formation of the C=O ... H-N bond in water, (2) formation of the C=O ... N-N bond in CCl4, and (3) transfer of N-methylacetamide from water to CCl4. (4) From (3), the free energy of transferring the non-hydrogen bonded (C=O, H-N) group from water to CCl4 was calculated. When the free energies of (1), (2) and (4) are combined, one finds that the free energy of transferring the C=O ... H-N group from water to CCl4 is a surprising -1.4 kcal/mol (1 cal = 4.184 J). This number does not seem reasonable, since it implies that the C=O ... H-N group is about as hydrophobic as an isopropyl group, i.e. the side-chain of valine. In the present report, it is shown that this apparent hydrophobicity results from an underestimation of the free energy contribution that the methyl groups make to the transfer of N-methylacetamide from water to CCl4. When appropriate methyl group transfer free energies are used, one finds that the free energy of transferring the C=O ... H-N group from water to CCl4 is +0.62 kcal/mol. Therefore, this group is relatively insensitive to solvent polarity. A similar calculation shows that the free energy of transferring the C=O ... H-O hydrogen-bonded group from water to benzene is +0.55 kcal/mol.
J Mol Biol 1988 Jun 05
PMID:Hydrophobicity of the peptide C=O...H-N hydrogen-bonded group. 341 13

The effects of administering indole-3-carbinol (I-3-C) on carbon tetrachloride (CCl4)-induced hepatotoxicity were examined. Mice received by gavage 0-150 mg I-3-C/kg body wt in methanol-extracted corn oil, followed 1 h later by 15 microliters CCl4/kg body wt in corn oil. Animals were sacrificed 24 h after receiving CCl4. Pretreatment with I-3-C reduced the degree of centrolobular necrosis, as observed histologically. Additionally, CCl4-mediated elevated serum enzymes were reduced by I-3-C. Although I-3-C induced elevated levels of cytochrome P-450 and associated mixed-function oxidase activity, the CCl4 depression of these parameters was not clearly reversed by I-3-C. However, CCl4 produced decreases in hepatic levels of glutathione (GSH), total reducing equivalents, and protein sulfhydryls, all of which were restored to control levels by I-3-C. Using mouse liver microsomes in an NADPH-fortified reaction mixture, I-3-C inhibited, in a concentration-dependent manner, CCl4-initiated lipid peroxidation, with 50% inhibition at 35-40 microM I-3-C. When mice were treated by gavage with 50 mg [14C]I-3-C/kg body wt, concentrations of radiolabel in the liver were greater than 100 microM after 1 hr. This was five times the level of radioactivity measured in blood and three times the concentration of I-3-C necessary for 50% inhibition of CCl4-mediated lipid peroxidation in vitro. The data are consistent with the hypothesis that I-3-C intervenes in CCl4-mediated hepatic necrosis by combining with reactive free radical metabolites of CCl4, thereby protecting critical cellular target sites.
Exp Mol Pathol 1987 Apr
PMID:Protection against carbon tetrachloride hepatotoxicity by pretreatment with indole-3-carbinol. 355 31

Isolated rat hepatocytes were exposed to CCl4 in doses commonly used in in vitro studies and for which we have provided biochemical evidence would induce solvent injury. Rapidly evolving morphologic alterations were observed in the plasma membrane, endoplasmic reticulum, and mitochondria. Swelling and fusion of surface microvilli with formation of blebs were particularly prominent and occurred within 2 min of exposure. Blebs regressed in some hepatocytes without evidence of cell death, when these cells were exposed to CCl4 under conditions promoting its evaporation. Disorganization of endoplasmic reticulum and mitochondrial injury were also prominent early findings. Rapid appearance of diffuse ultrastructural alterations in isolated hepatocytes exposed to CCl4 is consistent with nonspecific membrane injury induced by solvent effects.
Exp Mol Pathol 1987 Jun
PMID:Carbon tetrachloride-induced morphologic alterations in isolated rat hepatocytes. 359 1

High levels of acute phase proteins (acute phase reactants, APR) suppress acute inflammatory reactions in the rat. As many APR have antiprotease properties, including an anticollagenase activity, the effect of APR on the development of CCl4-induced liver fibrosis was investigated in rats. APR were provoked by repeated injections of epinephrine, inducing a broad spectrum of APR. This reaction can be monitored measuring alpha 2-macroglobulin levels in the rat (alpha 2-macrofetoprotein, alpha M FP). This protein was found to inhibit both acute galactosamine hepatitis and acute CCl4-induced liver toxicity. The animals with high levels of APR at the start of CCl4 treatment developed a more severe degree of fibrosis and cirrhosis than the control group in which no acute phase reaction was induced. Epinephrine alone had no such effects. Additionally, the APR positive group showed an initially lower degree of hepatocellular damage when compared to control animals. This uncoupling of liver cell damage and subsequent fibrosis may demonstrate that higher levels of APR might be important as to the development of cirrhosis, possibly based on the anticollagenase activity of these proteins.
Exp Mol Pathol 1986 Apr
PMID:Acute phase reactants enhance CCl4 induced liver cirrhosis in the rat. 369 34

Carbon tetrachloride-mediated loss of cytochrome P-450 has been compared in hepatic microsomes from untreated and phenobarbital-treated rats. At concentrations of carbon tetrachloride greater than 2.5 mM, a direct effect (i.e., NADPH- independent) on cytochrome P-450 was observed. This apparently arose from the "solvent" properties of carbon tetrachloride as this effect could be duplicated with the physically similar alkyl halide 1,2-dibromo-3-chloropropane. NADPH-dependent loss of cytochrome P-450 occurred at lower concentrations with maximal response occurring at 2.5-5.0 mM. Residual cytochrome P-450 at these concentrations was similar in untreated and phenobarbital-treated microsomes. Mixed-function oxidase activities in phenobarbital-treated microsomes were reduced to levels below those of uninduced controls. The 52-kDa polypeptide(s) in untreated microsomes and that specifically induced in phenobarbital-treated microsomes were susceptible to NADPH-dependent carbon tetrachloride incubation. These data suggest that the susceptibility of specific forms of cytochrome P-450 to carbon tetrachloride can be duplicated in in vitro incubation. Furthermore, data on the direct action of carbon tetrachloride suggest that this route of damage must be taken into consideration when concentrations of carbon tetrachloride of 2.5 mM or greater are used in in vitro incubation systems.
Exp Mol Pathol 1986 Jun
PMID:NADPH-dependent and -independent loss of cytochrome P-450 in control and phenobarbital-induced rat hepatic microsomes incubated with carbon tetrachloride. 372 Sep 20

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>