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)

Radiopharmaceuticals which reflect beta-oxidation in hepatocytes will provide useful information on the prognosis after surgery or on the efficacy of treatment, since beta-oxidation is the main pathway responsible for adenosine triphosphate in hepatocytes. We have previously developed [1-11C]octanoate as a diagnostic agent for determination of hepatic viability by means of positron emission tomography (PET). The goal of the present study was to develop a new radiopharmaceutical for single-photon emission tomography (SPET), which has the advantage of being more widely used than PET. To this end, two radioiodinated omega-(4-iodophenyl)-medium chain fatty acids, p-iodophenylvaleric acid (IPVA) and p-iodophenylenanthic acid (IPEA), were synthesized and evaluated as radiopharmaceuticals for determination of hepatic viability. Metabolite analyses in vitro and in vivo and a biodistribution study in normal mice indicated that both compounds were taken up by the liver actively and metabolized by beta-oxidation. However, these studies also indicated that IPEA is more suitable as an imaging agent than IPVA. Based on these results, SPET imaging studies were performed in normal and hepatitis model rats using [123I]IPEA. The time-activity curves of the liver showed two-phase clearance of radioactivity in both normal and hepatitis model rats, but the clearance was delayed depending on the severity of hepatitis. Furthermore, the clearance rate of the first phase was correlated with the ATP level in hepatocytes, which was used as an index of the energy production capacity of hepatocytes. In conclusion, IPEA was metabolized predominantly by beta-oxidation, and the clearance of IPEA from the liver was closely associated with the ATP concentration in the liver. Thus, [123I]IPEA is a potentially useful new radiopharmaceutical for diagnosis of hepatic viability based on energy metabolism.
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PMID:Evaluation of radioiodinated medium chain fatty acids as new diagnostic agents for the determination of hepatic viability. 1063 12

Hepatotoxins can be classified as intrinsic when they exert their effects on all individuals in a dose-dependent manner, and as idiosyncratic when their effects are the consequence of an abnormal metabolism of the drug by susceptible individuals (metabolic idiosyncrasy) or of an immune-mediated injury to hepatocytes (allergic hepatitis). Some xenobiotics are electrophilic, and others are biotransformed by the liver into highly reactive metabolites that are usually more toxic than the parent compound. This activation process is the key to many hepatotoxic phenomena. Mitochondria are a frequent target of hepatotoxic drugs, and the alteration of their function has immediate effects on the energy balance of cells (depletion of ATP). Lipid peroxidation, oxidative stress, alteration of Ca(2+) homeostasis, and covalent binding to cell macromolecules are the molecular mechanisms that are frequently involved in the toxicity of xenobiotics. Against these potential hazards, cells have their own defence mechanisms (for example, glutathione, DNA repair, suicide inactivation). Ultimately, toxicity is the balance between bioactivation and detoxification, which determines whether a reactive metabolite elicits a toxic effect. The ultimate goal of in vitro experiments is to generate the type of scientific information needed to identify compounds that are potentially toxic to man. For this purpose, both the design of the experiments and the interpretation of the results are critical.]
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PMID:The use of cultured hepatocytes to investigate the metabolism of drugs and mechanisms of drug hepatotoxicity. 1138 19

This review addresses recent advances in specific mechanisms of hepatotoxicity. Because of its unique metabolism and relationship to the gastrointestinal tract, the liver is an important target of the toxicity of drugs, xenobiotics, and oxidative stress. In cholestatic disease, endogenously generated bile acids produce hepatocellular apoptosis by stimulating Fas translocation from the cytoplasm to the plasma membrane where self-aggregation occurs to trigger apoptosis. Kupffer cell activation and neutrophil infiltration extend toxic injury. Kupffer cells release reactive oxygen species (ROS), cytokines, and chemokines, which induce neutrophil extravasation and activation. The liver expresses many cytochrome P450 isoforms, including ethanol-induced CYP2E1. CYP2E1 generates ROS, activates many toxicologically important substrates, and may be the central pathway by which ethanol causes oxidative stress. In acetaminophen toxicity, nitric oxide (NO) scavenges superoxide to produce peroxynitrite, which then causes protein nitration and tissue injury. In inducible nitric oxide synthase (iNOS) knockout mice, nitration is prevented, but unscavenged superoxide production then causes toxic lipid peroxidation to occur instead. Microvesicular steatosis, nonalcoholic steatohepatitis (NASH), and cytolytic hepatitis involve mitochondrial dysfunction, including impairment of mitochondrial fatty acid beta-oxidation, inhibition of mitochondrial respiration, and damage to mitochondrial DNA. Induction of the mitochondrial permeability transition (MPT) is another mechanism causing mitochondrial failure, which can lead to necrosis from ATP depletion or caspase-dependent apoptosis if ATP depletion does not occur fully. Because of such diverse mechanisms, hepatotoxicity remains a major reason for drug withdrawal from pharmaceutical development and clinical use.
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PMID:Mechanisms of hepatotoxicity. 1181 20

Hepatocyte injury and necrosis from many causes may result in pediatric liver disease. Influenced by other cell types in the liver, by its unique vascular arrangements, by lobular zonation, and by contributory effects of sepsis, reactive oxygen species and disordered hepatic architecture, the hepatocyte is prone to injury from exogenous toxins, from inborn errors of metabolism, from hepatotrophic viruses, and from immune mechanisms. Experimental studies on cultured hepatocytes or animal models must be interpreted with caution. Having discussed general concepts, this review describes immune mechanisms of liver injury, as seen in autoimmune hepatitis, hepatitis B and C infection, the anticonvulsant hypersensitivity syndrome, and autoimmune polyendocrinopathy. Of the monogenic disorders causing significant liver injury in childhood, alpha-1 antitrypsin deficiency and Niemann-Pick C disease demonstrate the effect of endoplasmic or endosomal retention of macromolecules. Tyrosinemia illustrates how understanding the biochemical defect leads to understanding cell injury, extrahepatic porphyric effects, oncogenesis, pharmacological intervention, and possible stem cell therapy. Pathogenesis of cirrhosis in galactosemia remains incompletely understood. In hereditary fructose intolerance, phosphate sequestration causes ATP depletion. Recent information about mitochondrial disease, NASH, disorders of glycosylation, Wilson's disease, and the progressive familial intrahepatic cholestases is discussed.
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PMID:Mechanisms of liver injury relevant to pediatric hepatology. 1189 Feb 7

Fatty accumulation per se does not appear to affect liver function; however, interest has recently renewed to fatty liver because of the clinical relevance of non alcoholic steato-hepatitis (NASH) and for the increased risk of post-transplant failure in grafted livers with steatosis. Clinical and experimental studies have doubtless demonstrated that oxidative stress ensues in steatotic livers. Mitochondria represent the preferential target of the oxidative injury associated to fatty degeneration and show reduced content of glutathione, higher levels of oxidative products and damages to enzymes involved in the process of ATP synthesis, which become more evident under stressing conditions. Although obese patients with fatty liver are advantaged by weight loss, clinical and experimental observations suggest that fatty livers poorly tolerate excessive food deprivation. These observations represent the rationale for treatment strategies based on the supplementation of antioxidants and energetic substrates rather than solely a diet restriction. This review focuses on data emerging from a series of investigations performed in rats with fatty livers induced by a choline-deficient diet, which resembles human steatosis due to an excessive intake of carbohydrates, and aims to give the cue for the development of therapeutic options able to preserve hepatic function after transplantation of steatotic organs.
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PMID:Experimental observations and clinical implications of fasting and diet supplementation in fatty livers. 1290 28

Atractylis gummifera is a poisonous plant widely found in North Africa. The thistle grows commonly in dry areas, and the juice of the rhizome is poisonous. It provokes frequent poisoning, especially of children. Toxic glucosides have been isolated and their identified as atractyloside and carboxyatractyloside. Tissues of high metabolic activity are the main target organs. Atractylis gummifera glucosides cause a severe hepatitis with fatal liver failure common. The plant's poisonous compounds interact with detoxication and/or transformation systems in the liver even at doses not likely to induce cytolysis by blocking ADP-ATP conversion through inhibition of P450 cytochrome. Clinical manifestations are related to an induced hypoglycemia and neurovegetative disorders or subsequent renal failure. Liver transplantation or immunotherapy may improve the often fatal prognosis.
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PMID:A review of acute poisoning from Atractylis gummifera L. 1517 92

Parkinson's disease patients treated with a combination of levodopa and an aromatic L-amino acid decarboxylase inhibitor usually develop motor complications after some years. To minimise this problem, selective catechol-O-methyltransferase (COMT) inhibitors were developed in order to improve the poor pharmacokinetic profile of levodopa. Tolcapone and entacapone are the two marketed drugs in this class, and both increase the half-life of levodopa and improve clinical parameters, such as the increase in the duration of 'on' and decrease of 'off' time. Soon after its release, tolcapone was suspended in the EU due to it's implication in the deaths of three Parkinsonian patients. The cause of death in these patients was fulminant hepatitis. The mechanism by which tolcapone induces liver damage has been studied. Results show that this drug induces uncoupling of oxidative phosphorylation in mitochondria, thus significantly reducing the cell's capacity to generate ATP. This toxic effect was demonstrated both in vitro and in vivo in several models but the concentrations required to induce it are significantly higher than those needed to inhibit COMT. Inter-individual differences in the capacity to metabolise tolcapone may yield higher plasma levels and may explain its toxic effects in a small sample of patients. Recently, the suspension on tolcapone was lifted, based on new clinical data and ongoing monitoring of its use in other countries. The European Agency for the Evaluation of Medicinal Products concluded that, in some situations, tolcapone has a clinical efficacy that is superior to entacapone and that an adequate level of safety could be achieved with appropriate liver function monitoring and other measures. It is concluded that tolcapone can be safely used in Parkinsonian patients who do not respond or cannot, for other reasons, be prescribed with other COMT inhibitors.
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PMID:Tolcapone in Parkinson's disease: liver toxicity and clinical efficacy. 1570 99

MDR1 (once P-glycoprotein, now referred to as ABCB1) plays a role as a blood-brain barrier, preventing drug absorption into the brain, and is known to confer multiple drug resistance in cancer chemotherapy. MDR1 is composed of two repeated fragments, and there are six transmembrane domains (TMD) on the N-terminal of each repeat and a nucleotide (ATP) binding domain (NBD) on the C-terminal. These two repeats are dependent but cooperate as one functional molecule, with one pocket for excreting drugs. The 12 TM domains form a funnel facing the outside of cells, and NBD is in cytosol as a dimer. One NBD is composed of the Walker A, Q-loop, ABC-signature and the Walker B for phosphate binding of nucleotide. This tertiary structure of MDR1 is suggested from the structure of the NBD of histidine permease (HisP), clarified by x-ray crystallography. On the model of HisP, the NBD positions described above make a functional domain, and the same NBD structure is found on many other ABC transporters. An experiment with MDR1 gene knockout mice showed the high plasma AUC of drugs in mdr null mice [mdr1a(-/-)] and a high level in the brain, indicating that MDR1 has an efflux function (prevention of absorption) in the intestinal lumen and acts as a barrier of drug uptake in the brain, as well as has the function of urinary and biliary excretion of drugs. The transcription of MDR1 is dependent on two sites; the promoter site (-105/-100)(-245/-141) and the enhancer site (-7864/-7817). Autoantibody from autoimmune hepatitis patients weakly reacted with the extracellular peptide (aa314-aa328 between TM5 and 6) of MDR1 on the outside of the cell membrane, and did not react with peptides in the NBD and in the membrane-spanning region in TM5. There is an ambiguity about the function of MDR1 as GlcCer translocase.
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PMID:New horizon of MDR1 (P-glycoprotein) study. 1625 32

Chronic infection of hepatitis virus B (HBV) has been proven to be one of the most important risk factors of hepatocellular carcinoma (HCC). HBx has been shown to function in the viral life cycle and the development of HCC. Recently, we have reported that HBx transgenic mice (p21-HBx), generated by gene knockin, develop HCC at the age of 18 months. To further study the function of HBx during the development of HCC in vivo, we performed proteomic analysis of the transgenic and wild-type control mice. The combination of 2-DE and MALDI-TOF MS revealed that proteasome subunits (PSMA6, PSMB4, PSMC2 and PSMD12) were up-regulated in tumor tissues of the p21-HBx transgenic mice. Cathepsin B, ubiquinol-cytochrome C reductase core protein 1 and an ATP-dependent caseinolytic protease, which were involved in the cellular proteolytic process, were also found increased in tumors. The results were confirmed in tumors of transgenic mice and HCCs of human using RT-PCR. All these results suggested that the strengthened ubiquitin-proteasome and lysosomal pathway might contribute to the development of HBx-related HCC.
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PMID:The up-regulation of proteasome subunits and lysosomal proteases in hepatocellular carcinomas of the HBx gene knockin transgenic mice. 1631 74

Like other nonsteroidal anti-inflammatory drugs, nimesulide (4-nitro-2-phenoxymethane-sulfoanilide) triggers hepatitis in a few recipients. Although nimesulide has been shown to uncouple mitochondrial respiration and cause hepatocyte necrosis in the absence of albumin, mechanisms for cell death are incompletely understood, and comparisons with human concentrations are difficult because 99% of nimesulide is albumin-bound. We studied the effects of nimesulide, with or without a physiological concentration of albumin, in isolated rat liver mitochondria or microsomes and in human hepatoma cells. Nimesulide did not undergo monoelectronic nitro reduction in microsomes. In mitochondria incubated without albumin, nimesulide (50 microM) decreased the mitochondrial membrane potential (DeltaPsim), increased basal respiration, and potentiated the mitochondrial permeability transition (MPT) triggered by calcium preloading. In HUH-7 cells incubated for 24 h without albumin, nimesulide (1 mM) decreased the DeltaPsim and cell NADPH and increased the glutathione disulfide/reduced glutathione ratio and cell peroxides; nimesulide triggered MPT, ATP depletion, high cell calcium, and caused mostly necrosis, with rare apoptotic cells. Coincubation with either cyclosporin A (an MPT inhibitor) or the combination of fructose-1,6-diphosphate (a glycolysis substrate) and oligomycin (an ATPase inhibitor) prevented the decrease in DeltaPsim, ATP depletion, and cell death. A physiological concentration of albumin abolished the effects of nimesulide on isolated mitochondria or HUH-7 cells. In conclusion, the weak acid, nimesulide, uncouples mitochondria and triggers MPT and ATP depletion in isolated mitochondria or hepatoma cells incubated without albumin. However, in the presence of albumin, only a fraction of the drug enters cells or organelles, and uncoupling and toxicity are not observed.
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PMID:The anti-inflammatory drug, nimesulide (4-nitro-2-phenoxymethane-sulfoanilide), uncouples mitochondria and induces mitochondrial permeability transition in human hepatoma cells: protection by albumin. 1661 66


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