UMLS:C0015695 - FACTA Search

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Query: UMLS:C0015695 (fatty liver)
13,941 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mechanism of liver enlargement and anti-fatty liver effect of NKK-105 in the rat were investigated by the mesurement of drug-metabolizing enzyme activities and morphological changes in liver tissue detected using electron microscopy. A single administration of NKK-105(250, 500, 1000 mg/kg, p.o.) induced an apparent increase in liver weight. The elevation of aminopyrine demethylase activity and slight increase in microsomal cytochrome b5 and cytochrome P-450 content were seen with the administration of NKK-105. NKK-105 inhibited lipid peroxide formation in mitochondrial and microsomal fractions. Total lipid content of liver decreased at 12 hr after the administration of NKK-105. Lipid peroxide formation in mitochondrial and microsomal fractions was markedly inhibited by the addition of NKK-105 (1 X 10(-3)M), in vitro. Disarrangement of rough endoplasmic reticulum and increase in smooth endoplasmic reticulum were observed by the administration of NKK-105. The decrease in drug-metabolizing enzymes caused by CCl4 or ethionine was protected in the combination with NKK-105. NKK-105 markedly inhibited the elevation of lipid peroxide formation caused by CCl4 or ethionine. Similar effects on lipid peroxide formation were also obtained in vitro. These results suggest that the enlargement induced by NKK-105 indicates a functional not a toxic response. The inhibition of lipid peroxide formation in mitochondrial and microsomal fractions may thus play an important role in the mechanism of anti-fatty liver effect of NKK-105 on the CCl4 or ethionine-induced fatty liver.
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PMID:[Effects of diispropyl 1, 3-dithiol-2-ylidene malonate (NKK-105) on the drug-metabolizing enzymes and fine structure of rat liver (author's transl)]. 12 Feb 99

Liver protocallagen proline hydroxylase activity (PPH activity) was determined in patients with various liver diseases, CCl4-induced liver fibrosis rats and cholin deficiency (tcd) fatty liver rats. The following results were obtained: Liver PPH activity in patients with chronic hepatitis was higher than that in patients with acute hepatitis, while the activity in patients with liver cirrhosis was much higher than that in patients with chronic hepatitis. The activity was higher in patients with chronic active hepatitis than in those with chronic inactive hepatitis. Patients with active and progressive liver cirrhosis were found to have an especially high PPH activity, in whom the activity reflected well the degree of liver fibrosis. Even though fibrosis in persistent hepatitis was almost negligible or slight, the degree of liver PPH activity in persistent hepatitis was similar to that in liver cirrhosis. Liver PPH activities in CCl4-induced liver fibrosis rats and CD fatty liver rats elevated proportionally to the lapse of time. Whilst liver PPH activity in rats of CD fatty liver without fibrosis in 23 to 31 weeks after the start of the experiment was slightly lower than that in rats of CD fatty liver with fibrosis. But liver PPH activity of the former was considerably higher than that of control rats.
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PMID:Liver protocollagen proline hydroxylase in human liver diseases and experimental liver fibrosis. 19 57

The effect of carbon-tetrachloride poisoning and the protection caused by AMP were studied. A single dose of CCl4 has resulted in a rapid development of a fatty liver, a considerable increase in serum enzymes, glutamic oxalacetic and pyruvic transaminases as well as serum-alkaline phosphatase. Total serum protein showed a tendency to decrease accompanied by a decrease in A/G ratio. Administration of adenosine-5-monophosphate prevented the increase in serum-alkaline phosphatase and increased the A/G ratio. There was, however, a slight but significant decrease in serum GOT and GPT within the 24-hrs. period of study, but it remained still higher than that of the control. AMP lowered liver fat without complete protection against the development of fatty liver.
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PMID:Effect of AMP on acute carbon-tetrachloride hepatotoxicity. 20 15

Lysosome are subcellular particles in which several acid hydrolases of various specificities are localized. The role of lysosome in cellular physiology and pathology has drawn considerable recent attention by several groups of investigators. The purpose of this study was to investigate the activities of lysosomal enzymes--acid phosphatase, beta-glucuronidase, N-acetyl-beta-glucosaminidase--in hepatic disorders. 1) The serum levels of beta-glucuronidase and N-acetyl-beta-glucosaminidase were significantly elevated in patients with diseases of the hepatobiliary system. 2) N-acetyl-beta-glucosaminidase activity in urine specimens from patients with diseases of the hepatobiliary system was found to be significantly higher than in urine specimens from normal adults. 3) Male albino rats of 150 approximately 200 g body weight were used. CCl4 was injected intraperitoneally (dose 0.1 ml of CCl4 per 100 g body weight twice a week for eight weeks). The free activities of lysosomal enzyme were increased and high free/total activity ratios were found in the liver lysosomal fraction of CCl4 intoxicated rats. The results of these experiment indicated that the membranes of lysosome were more permeable to their enzymes, and the release of these enzymes were found in the experimental fatty liver by CCl4. 4) Corticosteroids and chloroquine stabilized rat liver lysosome in vitro from the labilizing influence of incubation at 37 degrees C. 5) The administration of chloroquine to CCl4 intoxicated rats did not cause any well-expressed stabilization of lysosomes. 6) When alpha-Tocopherol was administrated to CCl4 intoxicated rats, the decrease of bound activity and increase of free activity in lysosomal fraction, and increase of acid hydrolases, GOT and GPT in serum were inhibited.
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PMID:[Studies on lysosomes in hepatic disorders (author's transl)]. 48

The onset of the lipoprotein secretory block provoked by CCl4 in the whole animal was monitored after purification of liver Golgi membranes. Both lipid transit through the apparatus and hexosylation of the lipoprotein are markedly inhibited 5-15 min after poisoning. Pre-treating the animal with alpha-tocopherol, shown to prevent lipid peroxidation without modifying the covalent binding due to CCl4 metabolites, affords little protection against lipid accumulation in the Golgi, but total preservation of galactosyl transferase activity. While haloalkylation therefore appears to be the major mechanism of damage in the early phases of CCl4-induced derangement of lipid secretion, lipid peroxidation is probably more involved later; this is indicated by the marked, though never complete, protection against fatty liver afforded at 24 h after CCl4 poisoning by supplementation of the membrane with alpha-tocopherol.
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PMID:Lipid peroxidation and covalent binding in the early functional impairment of liver Golgi apparatus by carbon tetrachloride. 211 Dec 33

Thioridazine (TDZ) administration to rats (50 mg/kg i.p.) 6 or 10 h after CCl4 treatment (1 ml/kg in olive oil i.p.) partially prevented necrogenic effects of this compound at 24 h but not at 72 h. TDZ did not have inhibitory effects on CCl4 activation, covalent binding (CB) of reactive metabolites to cellular constituents or CCl4-induced lipid peroxidation (LP). Moreover, TDZ had enhancing effects on both LP and CB. TDZ was able to increase protein and phospholipid synthesis and slightly but significantly enhanced protein but not phospholipid degradation in livers from control rats. TDZ administration decreased calcium liver content in CCl4-poisoned animals but did not change the intensity of CCl4-induced fatty liver. TDZ lowered body temperature in CCl4-treated animals during the 24 h observation period. These results and previous studies from our laboratory suggest calcium and calmodulin (CaM) participation in the CCl4 necrogenic effects on the liver but not in the hepatotoxin-induced fatty liver. TDZ-lowering effects on body temperature might also be a determinant in the delaying effects of this drug on the onset of CCl4-induced necrosis. Present experiments did allow discrimination between these two or other possible mechanisms for TDZ modulation effects.
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PMID:Modulation of the course of CCl4-induced liver injury by the anti-calmodulin drug thioridazine. 231 54

The daily ip administration of pantethine (500 mg/kg), pantothenic acid (100 mg/kg) or cystamine (50 mg/kg) for 5 days conferred significant protection against the hepatotoxic and peroxidative actions of a 0.5 mL/kg ip dose of CCl4 in rats. All three treatments lessened the increases in serum ALT and liver TBARS values, and the reductions in serum triglyceride levels, and prevented the development of hepatic steatosis caused by the halocarbon. Pantethine was found to offer the greatest protection.
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PMID:Protection by pantethine, pantothenic acid and cystamine against carbon tetrachloride-induced hepatotoxicity in the rat. 233 16

1. Male Mongolian gerbils (Meriones unguiculatus) liver activates CCl4 to free radicals that bind covalently to cellular components (CB) and stimulate a lipid peroxidation (LP) process to a larger extent than the rat liver. 2. CCl4 administration results in a less intense necrogenic effect in gerbils than in rats and does not cause fatty liver. 3. CCl4 causes less intense effects on liver ultrastructure or calcium metabolism but more marked depression of glucose 6 phosphatase activity (G6P-ase) in gerbils than in rats. 4. Results suggest that a better ability of gerbil liver to keep calcium homeostasis than rat liver might be the cause of their relative resistance to necrosis. Higher intensity of CB and LP in gerbils than in rats might explain more intense effects on G6P-ase.
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PMID:Carbon tetrachloride-induced liver cell injury in the Mongolian gerbil (Meriones unguiculatus). 257 75

In agreement with the hypothesis that changes in calcium homeostasis might be significant in late stages of chemically-induced liver cell injury, a calcium chelating agent, Calcion, was able to partially prevent CCl4-induced liver necrosis observed at 24 h, when treatment was given as late as 6 or 10 h after the hepatotoxin. Calcion had minor or no effects on covalent binding of reactive metabolites to cellular components, or on lipid peroxidation or on CCl4 levels reaching the liver. Calcion treatment of CCl4-poisoned animals decreased CCl4-induced calcium increases in liver and increased glutathione levels decreased by hepatotoxin at 24 h. Calcion treatment was not able to prevent CCl4-induced fatty liver. Calcion protective effects were body temperature dependent but they were cancelled when Calcion-treated poisoned animals were kept normothermic. Results suggest that Calcion protective effects might be linked to calcium chelation or alternatively that they might derive from decreases in body temperature.
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PMID:Late preventive effects against carbon tetrachloride-induced liver necrosis of the calcium chelating agent Calcion. 261 59

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.
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PMID:Further studies on the late preventive effects of the anticalmodulin trifluoperazine on carbon tetrachloride-induced liver necrosis. 337 54

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