Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0019158 (hepatitis)
 30,205 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The incidence and phenotype of preneoplastic and neoplastic liver lesions appearing in LEC rats after recovery from severe hereditary hepatitis were studied in comparison with the liver lesions appearing in chemical liver carcinogenesis. The livers of 168 rats (90 male, 78 female) were stained for seven histochemical markers at different time periods from the 20th week to the 122nd week of life. Glucose-6-phosphatase (G6Pase), adenosine triphosphatase (ATPase) and non-specific esterase (ES) were used as negative markers. Gamma-glutamyltransferase (GGT), glutathione S-transferase placental form (GSTP), esterase isozyme L-1 (L1) and alpha-fetoprotein (AFP) were used as positive markers. The study on the incidence of liver lesions in the LEC rats revealed sequential development of liver foci, nodules and hepatocellular carcinomas (HCCs) similar to those seen in chemically induced liver carcinogenesis. These lesions appeared earlier and more frequently in male LEC rats than in female ones, suggesting the importance of hormonal environment in spontaneous HCC development. The histochemical analysis of spontaneous liver lesions in LEC rats showed that GSTP was the most reliable positive marker as previously reported in chemical liver carcinogenesis. There was no essential difference in the expression of the markers in spontaneous and chemically induced liver lesions except for L1, which is considered to be related to xenobiotic metabolism. The results of this study suggest that both spontaneous and chemically induced liver cancer may develop by passing through phenotypically similar preneoplastic processes. In addition, the LEC rat uniquely showed chronic liver damage (hepatocyte death and regeneration) at the promotion stage of carcinogenesis. Such a natural history of HCC development in LEC rats is similar to that of human HCC which is frequently associated with chronic liver damage. Thus, the LEC rat provides a useful model for studying the process and underlying mechanisms of human liver cancer development.
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PMID:Phenotype of preneoplastic and neoplastic liver lesions during spontaneous liver carcinogenesis of LEC rats. 169 69

Toxic agents may induce immunological manifestations by interfering with either non specific or specific pathways of immunity. The interference with the specific pathways may result in stimulatory (autoimmunity or hypersensitivity) or suppressive reactions. Mechanisms responsible for autoimmunity of hypersensitivity are now better understood. Hypersensitive reaction may be the consequence of the recognition by T cells of the xenobiotic presented by MHC class II molecules. Mechanisms leading to autoimmune reaction probably differ according to the nature of the drug. Thus drugs metabolized by liver enzymes could induce autoimmune hepatitis as a consequence of the binding of a reactive metabolite to the enzyme, thus rendered immunogenic. Other drugs like thiol or metal-containing chemicals could be responsible for autoimmunity reaction by interacting with molecules involved in T-B lymphocyte cooperation. The knowledge of the involved mechanisms should allow to develop predictive assays.
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PMID:[Manifestation of immunologic origin produced by toxic compounds]. 178 2

Biotransformation of xenobiotics is a life saving function of the liver. As a consequence of the tremendous development of new and highly effective drugs this function is frequently overburden. In recent years the number of patients with pharmocotoxic liver damage has become greater than that of patients with viral hepatitis. The liver answers xenobiotic overcharge by a limited spectrum of functional, morphological and clinical reaction patterns that can be caused also by other noxious agents. The manifestation of liver damage depends on a variety of factors such as properties of the drug, mode of administration, reactivity of the whole organism and of the liver as the target organ. From the clinical point of view, xenobiotics can be divided into compounds with foreseeable liver damage and into others in which liver damage is not foreseeable as well as into drugs which produce mainly cholestasis and others in which hepatitis dominates. Mixed patterns are possible. For clarifying diagnostic, differential diagnostic and therapeutic problems a graduated program is proposed. Prophylactic measures are based on this program. The increase of pharmacotoxic damage of the liver and other organs and the expected development leads to consequences and recommendations in health care.
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PMID:[Drug-induced liver damage from a clinical viewpoint]. 383 8

During normal pregnancy, serum transaminase levels remain within normal limits. An elevated level observed in a pregnant woman always signals a disease process, most often of hepatic origin, but in certain cases, of muscular origin. During the last three months of pregnancy and in the immediate post partum period a large number of liver diseases can cause elevated transaminase levels, depending upon the clinical presentation. In everyday practice, a complete liver battery together with specialized consultation is required for all pregnant women with raised transaminase levels. Toxaemia gravis may be evident in patients with severely raised blood pressure, especially if seizures occur. Epigastric or subcostal pain should suggest hepatic involvement. Hypertension may however be absent and epigastric or left shoulder pain may be the only clinical signs. Acute liver steatosis is 20 to 50 times more rare than toxaemia and may cause nausea and vomiting. Certain non-specific signs such as asthenia, anorexia, polyalgia, abdominal pain, diarrhoea and fever, together with pruritus should suggest acute hepatitis. A 25-fold increase in transaminase level is commonly encountered. The risk of fulminating hepatitis is less than 1/1000 but should always be entertained. All drugs should be stopped and careful research for recent xenobiotic contamination (drugs, infusions, alphamethyldopa, etc.) should be undertaken. Viral hepatitis requires serovaccination of the newborn at birth. Herpetic hepatitis is rare but requires rapid diagnosis (liver biopsy) and treatment with acyclovir in addition to cesarean section and treatment of the newborn at birth. Rare cases of hepatitis E may occur after a stay in North Africa, the Middle-East, Southeast Asia or Mexico. Chronic cases with or without temporary pruritus suggest infectious hepatitis B or C although, in chronic hepatitis C, serum transaminase levels often return to normal during pregnancy. Rare cases of asymptomatic elevations of serum transaminase levels can reveal subclinical chronic hepatitis.
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PMID:[Significance of elevated transaminase levels at the end of pregnancy]. 802 21

A panel of four novel human hepatoma cell lines was isolated from a single tumor from a male individual. BC1, B16 and B16A2 lines were well differentiated, while cells of the B9 line were only poorly differentiated, being essentially negative for the functions analyzed. These cell lines have been surveyed for expression of a large set of plasma proteins, accumulation of liver-specific mRNAs and DNA-binding activity of ubiquitous and liver-enriched transcription factors. BC1 cells expressed the highest levels of albumin mRNA, whereas B16 and B16A2 cells accumulated the largest amounts of haptoglobin mRNA. In addition, B16 and B16A2 cells were unique in that they expressed CYP2E1 mRNA, a species absent from the available human liver cells, including HepG2 hepatoma cells, and 3-methylcholanthrene-inducible CYP1A2 mRNA. The activities of genes encoding transcription factors were evidenced in all four cell lines which expressed mRNAs for nuclear factor interleukin 6 and hepatocyte nuclear factor 1 (HNF) together with the DNA-binding activity of NFY and AP1 nuclear proteins. Strikingly, HNF-1 and HNF-4-like DNA-binding activities were restricted to BC1, B16 and B16A2 cells, supporting the idea of the potential role of these (or closely related) factors in the maintenance and/or in the establishment of the differentiated phenotype. B9 cells contained variant HNF1-like DNA-binding activity, similar to dedifferentiated rat hepatoma cells of the H5 line. CCAAT/enhancer-binding protein and HNF-3-like activities were found in all cell lines, although at a lower level and/or activity in B9 cells. Finally, transfection experiments of plasmids containing the whole hepatitis-B virus genome demonstrated that B16 cells, but not B9 cells, were able to support hepatitis-B virus replication and virion production, in agreement with the notion that HNF-1 activity is necessary for viral replication. We believe that the specific complement of transcription factors expressed in the differentiated BC1, B16 and B16A2 cells, and in the poorly differentiated B9 cells, will allow studies on the regulation of hepatic gene expression in these human lines, and will also aid the analysis of xenobiotic metabolism and the biology of hepatitis-B virus replication.
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PMID:trans-Acting factors, detoxication enzymes and hepatitis B virus replication in a novel set of human hepatoma cell lines. 868 51

Dimethyl sulfoxide (DMSO) can protect the liver from injury produced by a variety of hepatotoxicants when administered prior to or concomitant with the toxicants. This protective action has previously been attributed to DMSO-induced inhibition of bioactivation of the compounds to toxic intermediates. In these studies, the ability of DMSO to provide protection when administered 10 hr after a toxicant was evaluated in several animal models of xenobiotic-induced liver and kidney injury. In the guinea pig model of halothane-associated hepatotoxicity, male outbred Hartley guinea pigs received 2 ml/kg DMSO 10 hr after an inhalation exposure to 1.0% halothane, 40% O2 for 4 hr. DMSO decreased the extent of liver necrosis as indicated by a threefold decrease in plasma alanine aminotransferase activity 48 hr after exposure and a reduction in the incidence and extent of zone 3 necrosis. These results do not appear to be due to alterations in halothane biotransformation since DMSO administered at 10 hr after halothane had no affect on plasma concentrations of the halothane metabolite tritluoroacetic acid or covalent binding by reactive halothane biotransformation intermediates to hepatic protein. In addition, administration of the structurally analogous biotransformation inhibitor diallyl sulfide at 10 hr after halothane also had no affect on biotransformation or covalent binding but provided no protection from liver injury. Hepatic glutathione concentrations in the guinea pigs 24 hr after halothane exposure were also unaffected by late treatment with DMSO. Further studies in male Sprague-Dawley rats demonstrated the ability of DMSO to decrease the hepatic injury resulting from oral administration of 1.0 ml/kg chloroform or 0.5 ml/kg bromobenzene when administered 10 hr after either toxicant. The chloroform-treated rats also developed renal tubular necrosis with large increases in plasma creatinine and urea nitrogen, which were completely ameliorated by DMSO. Elucidating the mechanism(s) of this protective action of late DMSO administration should provide insight into the cascade of events that lead to liver and kidney injury from toxicants and, hopefully, therapeutic modalities for individuals suffering from acute, progressing, xenobiotic-induced hepatitis.
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PMID:Late dimethyl sulfoxide administration provides a protective action against chemically induced injury in both the liver and the kidney. 900 50

Despite good evidence for p53 dysfunction in human hepatocellular carcinomas, little is known of the significance of p53 to normal hepatocytes and whether p53 dysfunction is relevant to early hepatocarcinogenesis. We have therefore examined the consequences of targeted p53 deficiency in hepatocytes for regulation of apoptosis, proliferation, and ploidy. p53 deficiency was silent in normal liver and did not affect progression from diploidy to polyploidy in the aging liver. However, in primary culture the absence of p53 resulted in increased hepatocyte proliferation indices and decreased sensitivity to proliferation inhibition by TGFbeta. Moreover, p53-deficient cells continued to survive and proliferate under conditions of minimal trophic support that led to growth arrest and apoptosis of wild-type cells. In vivo, p53-deficient mice had enhanced proliferative responses to both xenobiotic hepatomitogen and CCl4-induced liver necrosis, although lack of persistent proliferation showed that other control mechanisms are important. There was no simple relationship between p53 and apoptosis after DNA damage because UV irradiation led to p53-independent apoptosis, even though p53 was stabilized. However, p53 did couple DNA damage to growth arrest, and abnormal mitoses after gamma-irradiation of regenerating p53 null livers demonstrated circumstances where loss of G1 and G2 checkpoints may generate abnormal ploidy. Thus p53 becomes important when hepatocytes are released from G0 and stressed, sensitizing them to mitogen and cytokine regulators of cell cycle progression and apoptosis. Hence p53 deficiency is likely to be significant in an environment of persistent regenerative stimuli and unfavorable trophic support or in the presence of other enabling genetic lesions. This model is relevant to human hepatocarcinogenesis, which almost always occurs against a background of chronic hepatocellular destruction in hepatitis and cirrhosis. In that context, by reducing the need for cytokine support and disabling DNA damage-induced growth arrest, p53 deficiency should facilitate the expansion of preneoplastic clones in chronic liver disease.
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PMID:p53 Deficiency in liver reduces local control of survival and proliferation, but does not affect apoptosis after DNA damage. 921 83

Dimethyl sulfoxide (DMSO) has previously been reported to protect against hepatotoxicity resulting from chloroform (CHCl3) or bromobenzene (BB) when given 10 hr after the toxicant. The object of these studies was to further demonstrate the latent protective ability of DMSO by administering it at a much later time (24 hr) following toxicant exposure. In addition, a more detailed evaluation of the lesions was performed to better characterize the lesion progression and resolution. Male Sprague-Dawley rats received a hepatotoxic oral dose of either CHCl3 (1.0 ml/kg) or BB (0.5 ml/kg) and then received 2 ml/kg DMSO intraperitoneally 24 hr later. With both toxicants, limited centrilobular lesions were already present by the time DMSO was administered. Without treatment, liver injury rapidly progressed so that by 48 hr it occupied 40-50% of the liver, with accompanying large increases in plasma alanine aminotransferase (ALT) activity. Administration of DMSO greatly attenuated lesion development for both toxicants; the area injured was reduced by more than 4-fold, accompanied by a decrease in 48 hr ALT activity of 8-16-fold. The ability of DMSO to intervene in the development of liver injury at such a late time appears to be unique and may provide insight into therapies for acute xenobiotic-induced hepatitis.
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PMID:Hepatoprotection by dimethyl sulfoxide. I. Protection when given twenty-four hours after chloroform or bromobenzene. 1035 11

Drug idiosyncrasy is an adverse event of unknown etiology that occurs in a small fraction of people taking a drug. Some idiosyncratic drug reactions may occur from episodic decreases in the threshold for drug hepatotoxicity. Previous studies in rats have shown that modest underlying inflammation triggered by bacterial lipopolysaccharide (LPS) can decrease the threshold for xenobiotic hepatotoxicity. The histamine-2 (H2)-receptor antagonist ranitidine (RAN) causes idiosyncratic reactions in people, with liver as a usual target. We tested the hypothesis that RAN could be rendered hepatotoxic in animals undergoing a modest inflammatory response. Male rats were treated with a nonhepatotoxic dose of LPS (44 x 10(6) endotoxin units/kg i.v.) or its vehicle and then 2 h later with a nonhepatotoxic dose of RAN (30 mg/kg i.v.) or its vehicle. Liver injury was evident only in animals treated with both RAN and LPS as estimated by increases in serum alanine aminotransferase, aspartate aminotransferase, and gamma-glutamyl transferase activities within 6 h after RAN administration. LPS/RAN cotreatment resulted in midzonal liver lesions characterized by acute necrosuppurative hepatitis. Famotidine (FAM) is an H2-antagonist for which the propensity for idiosyncratic reactions is far less than RAN. Rats given LPS and FAM at a dose pharmacologically equipotent to that of RAN did not develop liver injury. In vitro, RAN sensitized hepatocytes to killing by cytotoxic products from activated neutrophils, whereas FAM lacked this ability. The results indicate that a response resembling human RAN idiosyncrasy can be reproduced in animals by RAN exposure during modest inflammation.
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PMID:Ranitidine treatment during a modest inflammatory response precipitates idiosyncrasy-like liver injury in rats. 1289 37

Hepatic metabolism of biological toxins, industrial poisons, and medicinal agents involves disturbed hepatic cell biochemistry with augmented generation of reactive oxygen species and free radicals and redox imbalance with secondary damage to proteins, nucleic acids, lipids, and carbohydrates. The xenobiotic hepatotoxicity ranging from a subclinical anicteric state to severe necroinflammatory hepatitis (acute, recurrent or chronic) and cirrhosis depends on the nature, dosage, and duration of exposure to the xenobiotic, the antioxidant defence, and concomitant exposure to other diseases or xenobiotics. Experimental and clinical studies suggest that xenobiotic hepatotoxicity with variable depletion of antioxidants can be avoided or ameliorated by administration of an unusually high dosage of zinc or by a combination of antioxidants above normal daily requirements. Therefore reassessment of optimal prophylactic and therapeutic nutritional requirements of antioxidants (particularly zinc) to defend humans against xenobiotic induced oxidative stress is advocated.
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PMID:Oxidative stress, toxic hepatitis, and antioxidants with particular emphasis on zinc. 1461 18


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