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)

Herpes simplex is a common viral infection of the skin or mucous membranes. The lesions caused by this infection are often painful, burning, or pruritic, and tend to recur in most patients. Short-term treatment with acyclovir can accelerate the healing of an acute outbreak, and continuous acyclovir therapy is often prescribed for people with frequent recurrences. While this drug can reduce the recurrence rate by 60-90 percent, it can also cause a wide array of side effects, including renal failure, hepatitis, and anaphylaxis. Safe and effective alternatives are therefore needed. There is evidence that certain dietary modifications and natural substances may be useful for treating active Herpes simplex lesions or preventing recurrences. Treatments discussed include lysine, vitamin C, zinc, vitamin E, adenosine monophosphate, and lemon balm (Melissa officinalis).
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PMID:Natural remedies for Herpes simplex. 1681 59

Deficiency of circulating alpha-1-antitrypsin (AAT) is the most widely recognized abnormality of a proteinase inhibitor that causes lung disease. AAT-deficiency is caused by mutations of the AAT gene that lead to AAT protein retention in the endoplasmic reticulum (ER). Moreover, the mutant AAT accumulated in the ER predisposes the homozygote to severe liver injuries, such as neonatal hepatitis, juvenile cirrhosis, and hepatocellular carcinoma. Despite the fact that mutant AAT protein is subject to ER-associated degradation (ERAD), yeast genetic studies have determined that the ubiquitination machinery, Hrd1/Der3p-cue1p-Ubc7/6p, which plays a prominent role in ERAD, is not involved in degradation of mutant AAT. Here we report that gp78, a ubiquitin ligase (E3) pairing with mammalian Ubc7 for ERAD, ubiquitinates and facilitates degradation of ATZ, the classic deficiency variant of AAT having a Z mutation (Glu 342 Lys). Unexpectedly, gp78 over-expression also significantly increases ATZ solubility. p97/VCP, an AAA ATPase essential for retrotranslocation of misfolded proteins from the ER during ERAD, is involved in gp78-mediated degradation of ATZ. Surprisingly, unlike other ERAD substrates that cause ER stress leading to apoptosis when accumulated in the ER, ATZ, in fact, increases cell proliferation when over-expressed in cells. This effect can be partially inhibited by gp78 over-expression. These data indicate that gp78 assumes multiple unique quality control roles over ATZ, including the facilitation of degradation and inhibition of aggregation of ATZ.
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PMID:Ubiquitin ligase gp78 increases solubility and facilitates degradation of the Z variant of alpha-1-antitrypsin. 1697 36

The coronavirus membrane (M) protein carboxy tail interacts with the nucleocapsid during virus assembly. Previous studies demonstrated that the two terminal residues are important, and the charged residue (R227) in the penultimate position in the mouse hepatitis coronavirus (MHV) A59 M protein was suggested to participate in intermolecular interactions with negative charges in the nucleocapsid (N) protein. To determine the significance of the positive charge at position 227, we substituted the arginine with lysine (K), aspartic acid (D), glutamic acid (E), or alanine (A) and studied these by reverse genetics in the context of a MHV full-length infectious clone. Viruses with wild-type phenotype were readily recovered with the K or A substitutions. In contrast, negative-charge substitutions were not tolerated as well. In all recovered R227D viruses the negative charge was replaced with heterologous residues resulting from apparent template switching during negative-strand synthesis of subgenomic RNA 7. An additional second-site compensatory V202I substitution was present in some viruses. Recovered R227E viruses had second-site changes within the M protein carboxy tail that were partially compensatory. Significantly, most of the second site changes in the R227E mutant viruses were previously shown to compensate for the removal of negative charges in the N protein. Our results strongly indicate that a positive charge is not absolutely required. It is clear that other regions within the tail must also be involved in helping mediate interactions between the M protein and the nucleocapsid.
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PMID:Importance of the penultimate positive charge in mouse hepatitis coronavirus A59 membrane protein. 1732 45

Mature nonstructural protein-15 (nsp15) from the severe acute respiratory syndrome coronavirus (SARS-CoV) contains a novel uridylate-specific Mn2+-dependent endoribonuclease (NendoU). Structure studies of the full-length form of the obligate hexameric enzyme from two CoVs, SARS-CoV and murine hepatitis virus, and its monomeric homologue, XendoU from Xenopus laevis, combined with mutagenesis studies have implicated several residues in enzymatic activity and the N-terminal domain as the major determinant of hexamerization. However, the tight link between hexamerization and enzyme activity in NendoUs has remained an enigma. Here, we report the structure of a trimmed, monomeric form of SARS-CoV nsp15 (residues 28 to 335) determined to a resolution of 2.9 A. The catalytic loop (residues 234 to 249) with its two reactive histidines (His 234 and His 249) is dramatically flipped by approximately 120 degrees into the active site cleft. Furthermore, the catalytic nucleophile Lys 289 points in a diametrically opposite direction, a consequence of an outward displacement of the supporting loop (residues 276 to 295). In the full-length hexameric forms, these two loops are packed against each other and are stabilized by intimate intersubunit interactions. Our results support the hypothesis that absence of an adjacent monomer due to deletion of the hexamerization domain is the most likely cause for disruption of the active site, offering a structural basis for why only the hexameric form of this enzyme is active.
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PMID:Crystal structure of a monomeric form of severe acute respiratory syndrome coronavirus endonuclease nsp15 suggests a role for hexamerization as an allosteric switch. 1740 50

Autoimmune hepatitis is a polygenic disorder of unknown cause in which the genetic risk factors that affect occurrence, clinical phenotype, severity, and outcome still are being clarified. The susceptibility alleles in white North American and northern European patients reside on the DRB1 gene, and they are DRB1*0301 and DRB1*0401. These alleles encode a 6 amino acid sequence at positions 67-72 in the DRbeta polypeptide chain of the class II molecules of the major histocompatibility complex. This sequence is associated with susceptibility, and lysine at position DRbeta71 is the key determinant. Molecular mimicry between foreign and self-antigens may explain the loss of self-tolerance and the occurrence of concurrent immune diseases in anatomically distant organs. Disease severity is associated with the number of alleles encoding lysine at DRbeta71 (gene dose) and the number of polymorphisms, including those of the tumor necrosis factor-alpha gene, cytotoxic T lymphocyte antigen-4 gene, and tumor necrosis factor-receptor superfamily gene, that can modify the immune response. Individuals in different geographic regions may have different susceptibility alleles that reflect indigenous triggering antigens, and these may provide clues to the etiologic agent. Knowledge of the genetic predispositions for autoimmune hepatitis may elucidate pathogenic mechanisms, identify etiologic agents, characterize susceptible populations, foresee outcomes, and target new therapies. These lessons may be applicable to autoimmune disease in general.
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PMID:Genetic factors affecting the occurrence, clinical phenotype, and outcome of autoimmune hepatitis. 1832 91

Hepatitis delta virus (HDV) contains a viroid-like, 1.7-kb circular RNA genome, which replicates via a double-rolling-circle model. However, the exact mechanism involved in HDV genome RNA replication and subgenomic mRNA transcription is still unclear. Our previous studies have shown that the replications of genomic and antigenomic HDV RNA strands have different sensitivities to alpha-amanitin and are associated with different nuclear bodies, suggesting that these two strands are synthesized in different transcription machineries in the cells. In this study, we developed a unique quantitative reverse transcription-PCR (qRT-PCR) procedure for detection of various HDV RNA species from an RNA transfection system. Using this qRT-PCR procedure and a series of HDV mutants, we demonstrated that Arg-13 methylation, Lys-72 acetylation, and Ser-177 phosphorylation of small hepatitis delta antigen (S-HDAg) are important for HDV mRNA transcription. In addition, these three S-HDAg modifications are dispensable for antigenomic RNA synthesis but are required for genomic RNA synthesis. Furthermore, the three RNA species had different sensitivities to acetylation and deacetylation inhibitors, showing that the metabolic requirements for the synthesis of HDV antigenomic RNA are different from those for the synthesis of genomic RNA and mRNA. In sum, our data support the hypothesis that the cellular machinery involved in the synthesis of HDV antigenomic RNA is different from that of genomic RNA synthesis and mRNA transcription, even though the antigenomic RNA and the mRNA are made from the same RNA template. We propose that acetylation and deacetylation of HDAg may provide a molecular switch for the synthesis of the different HDV RNA species.
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PMID:Transcription of subgenomic mRNA of hepatitis delta virus requires a modified hepatitis delta antigen that is distinct from antigenomic RNA synthesis. 1865 55

Id-1 is a member of the HLH protein family that regulates a wide range of cellular processes such as cell proliferation, apoptosis, senescence and overexpression of Id-1 was recently suggested to play roles in the development and progression of different cancers. Previously, Id-1 was shown to physically interact with the viral protein E1A. Meanwhile, Id-1 expression was found to be regulated by several of the virus-encoded proteins, suggesting that Id-1 may be a common cellular target of the viral proteins. Here, we report that Id-1 interacts with the Hepatitis-B virus (HBV)-encoded protein HBX and regulates its stability in hepatocellular carcinoma (HCC) cells. We found that in HCC cells, ectopic Id-1 expression significantly decreased the half-life of the HBX protein, indicating that HBX is destabilized by Id-1. Meanwhile, the Id-1-induced HBX degradation was found to be inhibited by treatment with proteasome inhibitor, suggesting that this process is mediated through the proteasome pathway. Interestingly, while Id-1 did not induce HBX-ubiquitination, we found that removal of all the lysine residues of the HBX protein protects it from the effect of Id-1, indicating that ubiquitination is still required for the Id-1-mediated HBX degradation. Meanwhile, we found that Id-1 binds to the proteasome subunit C8 and facilitates its interaction with the HBX protein and disruption of this interaction completely abolishes the negative effect of Id-1 on HBX protein stability. Taken together, our results demonstrated a novel function of Id-1 in regulating HBX protein stability through interaction with the proteasome.
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PMID:Id-1 induces proteasome-dependent degradation of the HBX protein. 1867 81

Mono-dispersed, 6th generation dendritic poly(l-lysine) (KG6) forms a stable complex with plasmid DNA and this complex can circulate in vivo for extended times before the DNA finally accumulates in the liver. In this study, we attempted to use KG6 as a carrier of NFkappaB decoy oligonucleotide to the liver to treat hepatitis, induced by lipopolysaccharide and d-galactosamine. KG6 formed a complex with the NFkappaB decoy. Serum aspartate aminotransferase and alanine aminotransferase were dramatically suppressed in the hepatitis mouse model after intravenous injection of KG6/NFkappaB decoy complexes. Expression levels of several cytokines and proteins related to the inflammatory reaction were also suppressed by intravenous administration of KG6/NFkappaB decoy complexes. Because [(32)P] NFkappaB decoy was found in non-parenchymal cells after intravenous injection, KG6 has been shown to be a promising carrier molecule of various oligonucleotides to non-parenchymal liver cells, including Kupffer cells.
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PMID:NFkappaB decoy delivery using dendritic poly(l-lysine) for treatment of endotoxin-induced hepatitis in mice. 1953 84

Hepatitis is a severe disease with a high incidence rate around the world [Hwang, J.M., Tseng, T.H., Tsai, Y.Y., Lee, H.J., Chou, F.P., Wang, C.J., Chu, C.Y., 2005. Protective effects of baicalein on tert-butyl hydroperoxide-induced hepatic toxicity in rat hepatocytes. J. Biomed. Sci. 12, 389-397]. Corn gluten meal is a byproduct of starch industry with abundant protein. However, the application of corn protein is limited because of its low solubility and short of essential amino acids such as lysine and tryptophan. The hepatoprotective activity of corn peptides (CP) from corn gluten meal hydrolysate was evaluated against Bacillus Calmette-Guerin (BCG)/lipopolysaccharide (LPS) induced immunological liver injury (ILI) in mice. Results showed that ILI was manifested by a significant increase in levels of serum aspartate aminotransferase (AST)/alanine aminotransferase (ALT) and liver malondialdehyde (MDA)/nitric oxide (NO) levels (p<0.01), and by a significant decrease in levels of superoxide dismutase (SOD)/glutathione peroxidase (GPX) and glutathione (GSH) in liver (p<0.01). Pretreatment of mice with CP reversed these altered parameters to normal values. The effect of CP was further demonstrated by histopathological examination of liver sections. The best hepatoprotective effect of CP treatment was observed at the dose of 600 mg/kg bw, which was evidenced from biochemical parameters and liver histopathological characters. Results of this study revealed that CP could afford a significant protection against BCG/LPS-induced hepatocellular injury. It will broaden the application and increase the value of corn gluten meal, byproduct from starch industry.
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PMID:Antihepatotoxic effect of corn peptides against Bacillus Calmette-Guerin/lipopolysaccharide-induced liver injury in mice. 1957 9

Hepatitis delta antigen (HDAg) is a nuclear protein that is intimately involved in hepatitis delta virus (HDV) RNA replication. HDAg consists of two protein species, the small form (S-HDAg) and the large form (L-HDAg). Previous studies have shown that posttranslational modifications of S-HDAg, such as phosphorylation, acetylation, and methylation, can modulate HDV RNA replication. In this study, we show that S-HDAg is a small ubiquitin-like modifier 1 (SUMO1) target protein. Mapping data showed that multiple lysine residues are SUMO1 acceptors within S-HDAg. Using a genetic fusion strategy, we found that conjugation of SUMO1 to S-HDAg selectively enhanced HDV genomic RNA and mRNA synthesis but not antigenomic RNA synthesis. This result supports our previous proposition that the cellular machinery involved in the synthesis of HDV antigenomic RNA is different from that for genomic RNA synthesis and mRNA transcription, requiring different modified forms of S-HDAg. Sumoylation represents a new type of modification for HDAg.
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PMID:Modification of small hepatitis delta virus antigen by SUMO protein. 1988 71

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