UMLS:C0019158 - FACTA Search

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Query: UMLS:C0019158 (hepatitis)
30,205 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The hepatitis-like changes were induced in the liver of albino female rats weighing 120-150 g and fed on the appropriate vivarium diet by single parenteral administration of hydrochloride galactosamine in a dose of 0.9 or 1.8 mmol per 1 kg of body weight. The thiamine diphosphate level in the cytosol fraction of the liver decreased 24 h after the preparation administration, the same in blood but with the higher dose used. The activity of pyruvate dehydrogenase, a thiamine diphosphate dependent enzyme, decreased similarly. The cytosol transketolase activity lowered by 38-39%. The coenzyme biosynthesis disturbance due to a fall by 49-58% in the thiamine pyrophosphatase activity is considered to be responsible for hydrochloride galactosamine-induced decrease in the thiamine diphosphate pool. Specificity of the thiamine diphosphate pool disturbance and discoordination of thiamine diphosphate dependent enzymes in the liver are observed under administration of hydrochloride galactosamine.
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PMID:[Thiamine diphosphate pool and its biosynthesis in the liver in galactosamine hepatitis]. 258 37

When experimental hepatitis was induced by administrating rats with hepatotoxins such as CCl4 and D-galactosamine, HGF mRNA increased dramatically in the injured liver. The increase of HGF mRNA was time- and dose-dependent. At 5 hr after CCl4-treatment, HGF mRNA was remarkably increased; it reached the maximum level at 10 hr and maintained at this level for 40 hr. On the contrary, in D-galactosamine-induced hepatitis, HGF mRNA started to increase from 24 hr after a long lag time. Moreover, HGF mRNA was expressed transiently, decreasing rapidly to the basal level after reaching the maximum level at 36 hr. The degree of induction of HGF mRNA correlates well to the degree of liver damage. In the liver, HGF mRNA could be detected in only non-parenchymal cells, not in parenchymal hepatocytes. These findings suggest that liver is a main producing organ of HGF for liver regeneration after hepatic injury, and HGF is synthesized and secreted by non-parenchymal liver cells so that it stimulates the growth of parenchymal hepatocytes to repair liver tissue in paracrine fashion.
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PMID:Marked increase of HGF mRNA in non-parenchymal liver cells of rats treated with hepatotoxins. 269 63

Amino sugars such as galactosamine are hepatotoxic. It has been verified that toxic hepatitis induced by galactosamine is similar to that of CCl4 poisoning, and that both were inhibited by O2* scavengers. Fructosamine results from the union of glucose with the epsilon-amine of lysine. A test for fructosamine quantification is based on nitroblue tetrazolium (NBT) reduction, in which O2- is involved, the reduction being inhibited in the presence of superoxide dismutase (SOD). Given these facts, we attempted to elucidate if galactosamine and glucosamine reduce NBT and if that reduction is inhibited by SOD. This was confirmed. Subsequently, we incubated aminoacids (glycine, lysine, alanine) with glucose and galactose for 7 days and studied the action of the incubation products on NBT, using amino acids and sugars as controls. We found that NBT reduction increases proportionally to the length of incubation time of glucose/galactose with lysine, but not with other amino acids. Reduction of NBT by the Amadori compounds formed is inhibited by SOD. We suggest that oxygen radical generation by Amadori compounds must be taken into consideration as one cause of damage in diabetes of long duration.
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PMID:Oxygen radical generation by Maillard compounds. 283 94

The pathogenic mechanism of fulminant hepatitis induced by 700 mg/kg D-galactosamine plus 33 micrograms/kg endotoxin was investigated in male NMRI mice. The extent of liver injury was assessed by measurement of serum transaminases and sorbitol dehydrogenase activities 9 hr after intoxication, as well as by histopathological evaluation. When the hepatic glutathione content of galactosamine endotoxin-treated animals had been decreased by more than 90% following administration of 250 mg/kg phorone or 400 mg/kg diethyl maleate given three times, no signs of liver injury were observed. Since different agents interfering with the leukotriene synthesis pathway also prevented galactosamine/endotoxin-induced hepatitis, we suspected that a glutathione-derived peptidoleukotriene may be the pathogenic metabolite. In vivo inhibition of the catabolism of leukotriene C4 by administration of 50 mg/kg of the glutamyl transpeptidase inhibitor AT 125 (Acivicin) also protected the animals against liver injury. In order to elucidate which metabolite of leukotriene C4 was responsible for the observed hepatotoxicity we intravenously injected leukotrienes into animals that had received only galactosamine. Injection of 50 micrograms/kg leukotriene E4 1 hr after galactosamine had no effect. The same dose of leukotriene D4 led to a fulminant hepatitis which was prevented when the leukotriene D4 antagonist FPL 55712 had been given before. In contrast, lipoxygenase inhibitors or AT 125 did not protect against galactosamine + LTD4. Galactosamine/endotoxin-induced and galactosamine/leukotriene D4-induced hepatitis resulted in similarly localized histopathological changes, i.e. diffuse necrosis in the organ. We conclude from our results that galactosamine/endotoxin-induced hepatitis is mediated by a leukotriene D4-dependent mechanism.
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PMID:Leukotriene-mediated liver injury. 283 97

The biochemical basis of the hepatitis-like liver injury produced by D(+)-galactosamine in rats is well-established and is linked to depletion of uridine nucleotides within parenchymal cells. However, the prominent inflammatory response that accompanies this lesion in vivo has been largely overlooked as a component of the hepatic damage. This study examines the cellular components of the inflammatory infiltrate of galactosamine-induced liver injury over time using histochemical and ultrastructural techniques. By 12 h after toxin administration, the infiltrate consisted largely of neutrophils and recently-mobilized monocytes. By 24 to 48 h after the toxin, when hepatocellular necrosis was maximal, few neutrophils were found in the infiltrate. At these times, the infiltrate consisted almost exclusively of large phagocytic cells, histochemically and morphologically consistent with active tissue macrophages apparently derived from circulating monocytes. The extent of the inflammatory response to this experimental hepatotoxin suggests that effects on the generation and development of the inflammatory response should be considered for treatments reported to alter the intrinsic hepatotoxicity of galactosamine.
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PMID:An ultrastructural and histochemical study of the prominent inflammatory response in D(+)-galactosamine hepatotoxicity. 295 87

The effects of wuweizisu C, a lignan component of schizandra fruits, on liver injuries induced by carbon tetrachloride (CCl4), d-galactosamine and dl-ethionine were investigated by means of serum-biochemical and histopathological examinations in rats. Pretreatment or combined administration of wuweizisu C dose-dependently reduced the elevation of serum transaminase activity and histological changes such as fatty degeneration, cell necrosis, inflammatory cell infiltration, etc., which were caused by the single administration of 1 ml/kg, p.o., or the repeated administration of 0.2 ml/kg, s.c., daily for 4 days of CCl4, respectively. The effects of wuweizisu C on the liver injuries induced by a low dose (200 mg/kg, i.p.) and a high dose (400 mg/kg, i.p.) of d-galactosamine were compared with those of uridine. Wuweizisu C significantly lowered the rise of serum transaminase activity after the administration of a low dose of d-galactosamine in the serum-biochemical analysis. A tendency was also shown to inhibit cell necrosis and inflammatory cell infiltration caused by both doses of d-galactosamine in the histopathological examination. On the other hand, uridine markedly repaired the serum-biochemical and histopathological changes after the administrations of both doses of d-galactosamine. Also wuweizisu C cured the liver injury by the repeated administration of 150 mg/kg, i.p., daily for 4 days of d-galactosamine. After the repeated administration of 250 mg/kg, s.c., daily for 4 days of ethionine, liver cell atrophy, diffuse fatty degeneration and decrease of serum triglyceride were observed, but not cell necrosis. Wuweizisu C dose-dependently inhibited fatty degeneration and decrease of serum triglyceride. These findings suggest that wuweizisu C can be protective and/or therapeutic on hepatocellular phenomena such as cell necrosis, fatty degeneration, inflammatory cell infiltration, etc., in human hepatitis.
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PMID:[Pharmacological studies on schizandra fruits. III. Effects of wuweizisu C, a lignan component of schizandra fruits, on experimental liver injuries in rats]. 298 31

The following procedure for the detection of non-acetylated amino sugars in the plasma membrane was established: i) derivatization of free amino groups with dansyl-chloride, ii) hydrolysis with 3 M HCl (for 4 h at 105 degrees C) to liberate the dansylated carbohydrate moieties from the plasma membrane, iii) purification of the dansylated amino sugars by paper chromatography and subsequent analysis by thin-layer chromatography. Using this procedure, plasma membranes from rat liver were analysed after injection of D-[14C]galactosamine. For this purpose, rats were divided into three groups: the first received D-galactosamine.HCl at a dose of 2 mg/kg b.w., the second at a dose of 75 mg/kg b.w. and the third at a hepatitis-inducing dose of 260 mg/kg b.w.. In all three groups the majority of the protein-bound radioactivity in the plasma membrane was not dansylated, thus representing N-acetylated amino sugars. At a dose of 2 mg/kg, only 0.34% of the protein-bound radioactivity in the plasma membrane reacted with dansyl-chloride. At a dose of 70 mg/kg this value increased to 1.9%. At 260 mg/kg the value was 3.6%. These results indicate that the incorporation of non-acetylated amino sugar into the plasma membrane was dose-dependent and reached 90 pmol per mg plasma membrane protein during galactosamine injury. However, this incorporation of non-acetylated amino sugars into the plasma membrane did not represent a pathological mechanism responsible for the onset of the galactosamine-induced liver injury.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Incorporation of non-acetylated hexosamines into plasma membrane glycoproteins of liver cells after galactosamine injection. 322 92

The quantitative determination of hydrocarbons exhaled by animals as an in vivo index of extensive lipid peroxidation is described. Advantages and limitations of this method are discussed. Acetaminophen-induced hepatic lipid peroxidation in mice is an example of oxidative stress, the extent of which is determined in vivo by the turnover of endoplasmic reticulum monooxygenase and the cofactor, e.g. glutathione status of the liver. In microsomal suspensions, none of the assay methods for lipid peroxidation identifies acetaminophen as a prooxidant. Rather, it acts like an antioxidant. The obvious limitations of in vitro experiments are emphasized. Cytosolic metabolism of allyl alcohol also leads, in a dose-dependent manner, to extensive lipid peroxidation. Evidence is presented that release of iron from intracellular stores following overproduction of NADH may be the primary cause of this lesion. The term reductive stress is suggested for this metabolic initiation of iron redox cycling. In experimental hepatitis induced by galactosamine/endotoxin, a leukotriene-mediated pathomechanism, no signs of lipid peroxidation are detectable. This means that ethane or pentane formation are definitively not late consequences of membrane deterioration but rather early causal events in special cases of hepatotoxicity.
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PMID:Measurement of in vivo lipid peroxidation and toxicological significance. 331 1

Acute fulminant hepatitis was induced in 55 healthy adult male rabbits with the potent hepatotoxin galactosamine hydrochloride (3.75 mmoles per kg i.v.). Control rabbits (n = 27) were divided into three groups: Group I (n = 10) underwent sham surgery for placement of an indwelling central venous catheter; Group II (n = 9) received 5% dextrose and water via an indwelling central venous catheter, and Group III (n = 8) received daily intramuscular injections of 0.9% sodium chloride. Treated rabbits (n = 28) also consisted of three groups: Group IV (n = 9) received 12-hr intravenous infusions of insulin (0.029 units per kg per hr) and glucagon (2.86 micrograms per kg per hr) daily; Group V (n = 10) received a continuous infusion of parenteral amino acids (Travasol), and Group VI (n = 9) received daily intramuscular methylprednisolone (0.69 mg per kg). In each case, treatment was initiated 16 hr following galactosamine injection. Serum aminotransferase activity was determined on Days 0, 1, 4 and 10 of the 10-day study. Liver histology was obtained immediately after death and graded under code on a scale of 1 to 4 for severity of hepatitis. Rabbits surviving 10 days were sacrificed on Day 10 for histologic examination. The extent of galactosamine-induced hepatic injury was similar in all six groups as manifest by peak mean SGPT (range: 2,662 to 3,568 IU per liter), SGOT (range: 4,435 to 5,625 IU per liter) levels and hepatic histologic findings. The overall survival rate in controls was 6/27 (22%); in insulin/glucagon-treated animals 2/9 (22%), and in the amino acid-treated group 2/10 (20%).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A comparative study of the effects of insulin/glucagon infusions, parenteral amino acids and high dose corticosteroids on survival in a rabbit model of acute fulminant hepatitis. 351 Sep 52

Changes in biochemical and electroencephalographic parameters were followed over time during the development of acute hepatic encephalopathy (HE) in two different experimental models. In the rat, (sub)acute liver failure was obtained either by ligation of the hepatic artery in previously portacaval-shunted animals or by intraperitoneal injection of a high dose of galactosamine (GALN). The EEG changes were characterized in both models by a significant increase in low-frequency activity of the EEG power density spectra: the so-called 'left shift'. This 'left shift' was significant in liver ischemia after 4-5 h and in GALN hepatitis after about 30 h. The changes in plasma biochemical indices also showed a great similarity in both models. The concentration of all measured plasma amino acids (except histidine and arginine in GALN hepatitis and arginine in liver ischemia), NH3 and ALAT were significantly increased during the development of (sub)acute HE. Correlation of the combined data of electroencephalographic and biochemical indices showed a significant (P less than 0.01) correlation between the 'left shift' and NH3, taurine, threonine, proline, alanine, methionine, cystathionine, phenylalanine, tryptophan, ornithine and histidine. It is concluded that EEG spectral analysis is a useful parameter for following the development of (sub)acute hepatic encephalopathy in relation to biochemical parameters.
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PMID:Correlation between electroencephalographic and biochemical indices in acute hepatic encephalopathy in rats. 359 63

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