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)

A trimer of hepatitis delta virus (HDV) cDNA in a retrovirus expression vector was transfected into subclone of the PLC/PRF/5 human hepatoma cell line, and a stable cell line (H1 delta 9) was clonally selected that supported the synthesis of both genomic and antigenomic sense HDV RNA. The H1 delta 9 cell line also expressed hepatitis delta antigen (HDAg) in cell nuclei in three distinct morphological patterns, including patterns typically seen in HDV-infected livers. HDAg expression was restricted to the smaller (p24) of the two HDAg-associated polypeptides in early passages of the H1 delta 9 cell line, but continuous passage of the cells resulted in increasing of expression of the larger (p27) HDAg-specific polypeptide. Passage of the H1 delta 9 cells also led to sustained expression of monomeric HDV RNA and a reduction in the levels of dimeric- and trimeric-HDV RNA. This was accompanied by an attenuation of virus-related cytotoxicity which was a feature of early cell passage numbers. HDV RNA replication in these cells was resistant to actinomycin D suggesting that replication was not dependent on continued expression from the transfected HDV cDNA and thus was likely to be self-sustaining.
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PMID:Hepatitis delta virus RNA, protein synthesis and associated cytotoxicity in a stably transfected cell line. 216 31

The infectivity of cloned hepatitis B viral DNA (HBV) has been tested in chimpanzees to identify a fully functional HBV genome and to assess the risk associated with its handling. Only one of two HBV DNA sequence variants tested was shown to be infectious. "Clone purified" virus of predicted nucleotide sequence was produced from the infectious HBV DNA, and the cloned viral genome was identical in structure with naturally occurring HBV. Infection could be initiated independent of whether circular monomeric or plasmid integrated dimeric forms of the viral genome were inoculated, but the infectivity of the DNA depended on liver cell transfection or intrahepatic injection. Intravenous injection of high doses of infectious HBV DNA did not induce hepatitis, suggesting that there is virtually no risk associated with routine laboratory handling of cloned HBV DNA.
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PMID:Infectious hepatitis B virus from cloned DNA of known nucleotide sequence. 298 20

We investigated hepatitis B virus (HBV) DNA in liver samples from 22 patients with acute benign hepatitis (AH) and 26 with acute fulminant hepatitis (FH) and compared the results with those obtained by detection of serum HBV DNA and HBV serological markers. Free HBV DNA forms were detected in 11 patients with AH and one with FH, a reflection of active HBV DNA replication in three patients and the end of viral multiplication in nine. Free monomeric HBV DNA was present in three patients with AH and six with FH, and free oligomers were identified in three patients with AH. Results from two patients with AH and seven with FH suggested the presence of dimeric or multimeric HBV DNA. Thus, the various forms of HBV DNA previously described in chronic HBV carriers may be observed at the acute stage of the viral infection. After comparing serological and hybridization data, we found that nine of 19 patients (one with AH and eight with FH) lacking serum HBV surface antigen might have had acute hepatitis related to infection with HBV or HBV variants.
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PMID:Sequences of hepatitis B virus DNA in the serum and liver of patients with acute benign and fulminant hepatitis. 379 4

Hepatitis delta virus (HDV) is hepatotropic and frequently causes fulminant hepatitis in both human and nonhuman primate hosts. To understand the molecular basis of HDV tissue tropism and the mechanism of pathogenesis, transgenic mice in which replication-competent HDV dimeric RNA is expressed under the control of either liver-specific or universal transcriptional promoters were developed. The expressed RNA replicated efficiently in the liver and several tissues of nonhepatic origin. Surprisingly, maximal replication of HDV RNA occurred in skeletal muscle and was almost 100-fold greater than in the liver. These findings suggest that the hepatotropism of HDV is most likely a receptor-mediated restriction and that muscle-specific factors may facilitate HDV RNA replication. No evidence of cytopathology was apparent in most of the tissues examined, including the liver, supporting the contention that hepatocellular disease is not mediated by direct cytopathological effects associated with HDV RNA replication and gene expression. However, mild muscle atrophy in some of the transgenic mice was noted. Delta antigen was detected in the nuclei of myocytes. Only the small form, not the large form, of delta antigen was detected, suggesting that the RNA editing event which causes the conversion of delta antigen did not occur in transgenic mice. Furthermore, the 0.8-kb antigenomic RNA species, which is postulated to be the mRNA for delta antigen, was not detected in mice. The preferential replication of HDV RNA in skeletal muscle suggests that HDV RNA replication can be facilitated by certain muscle-specific factors.
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PMID:Transgenic mice support replication of hepatitis delta virus RNA in multiple tissues, particularly in skeletal muscle. 760 56

Transcription and replication of hepatitis delta virus (HDV) RNA is thought to be performed by host RNA polymerase II. The mechanism which enables polymerase II to use RNA as a template is unclear. However, since extensive intramolecular complementarity allows HDV RNA to form a rod-shaped structure, it is possible that the mostly double-stranded HDV RNA may resemble double-stranded DNA in structure, and can thus be used by RNA polymerase II as a template. To investigate this possibility, we examined whether the cDNA counterpart of HDV RNA contains a promoter and thus can drive the transcription and replication of HDV RNA. Circularized monomers of HDV cDNA, when transfected into various cell lines, were found to generate both monomeric and dimeric forms of HDV RNA and hepatitis delta antigen at levels comparable to those generated with HDV cDNA multimers under the control of a SV40 late promoter, suggesting that HDV cDNA contains endogenous promoters. Using chloramphenicol acetyltransferase and human growth hormone as reporter genes, the specific promoter activity for the synthesis of antigenomic HDV RNA was localized to a 29-nucleotide region (nucleotides 1650-1679), although an additional 224-nucleotide upstream region was also necessary for maximum activity. Similarly, promoter activity for the synthesis of genomic RNA was localized to a 160-nucleotide region around position 1679 that overlapped with the antigenomic promoter region. Since these regions are in a highly conserved double-stranded region of HDV RNA, they may represent RNA promoters recognized by RNA polymerase II. This result also suggests a convenient method, using circularized monomer HDV cDNA, to study HDV RNA replication.
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PMID:Endogenous promoters can direct the transcription of hepatitis delta virus RNA from a recircularized cDNA template. 837 36

To define the important cis-elements in hepatitis delta virus (HDV) RNA, the viral genome was mutated by a linker-scanning mutagenesis strategy that maintained the native rod-like structure of HDV RNA. Mutant HDV cDNAs or their corresponding RNA transcripts were transfected into a Huh-7-derived cell line which continuously expressed small hepatitis delta antigen to study the viral replication and transcription. Here we report the following findings. (i) Although most of the mutant RNAs could self-process to generate the 1.7-kb genomic RNA and all their stabilities were similar, positions which surround the genomic ribozyme domain were found to be important for the self-processing of the dimeric RNA. (ii) The replication of viral RNA was greatly diminished in many mutants, suggesting that multiple regions in HDV RNA were required for replication. (iii) In certain mutants, replication of the HDV antigenomic RNA was selectively abolished but that of the genomic RNA was not. Therefore, this was the first report to show that the cis-elements needed for the replication of genomic or antigenomic HDV RNA could be different. (iv) A continuous region (nt 1625 to nt 431), spanning the HDAg mRNA initiation site and containing the in vitro identified RNA promoter, was found to be important for mRNA production in vivo. (v) The HDV RNA replication and transcription was previously proposed to be governed by a single "double-acting promoter." However, two mutants which were deficient in mRNA synthesis still retained active viral RNA replication. It suggested that the HDV replication could initiate from sites other than this single promoter. This study therefore provided an insight into the cis-elements required for HDV RNA replication and transcription and further contributed to our understanding of HDV life cycle.
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PMID:Identification of the functional regions required for hepatitis D virus replication and transcription by linker-scanning mutagenesis of viral genome. 942 52

We previously demonstrated that both casein kinase II (CKII) and protein kinase C (PKC) positively modulate the hepatitis delta virus (HDV) RNA replication but not the assembly of the empty hepatitis delta antigen (HDAg) particle. In this study, we investigated whether phosphorylation of HDAg by these two kinases plays a role in assembly of the HDV virion. As demonstrated by in vivo labeling and kinase inhibitor experiments, the phosphorylation level of large HDAg but not small HDAg in HDAg-expressing HuH-7 cells was diminished by CKII inhibitor (DRB), whereas no effect was observed for the phosphorylation level of two HDAgs when treated with protein kinase A (PKA) inhibitor (HA1004) or PKC inhibitor (H7). Cotransfection experiment also demonstrated that packaging of HDV genomic RNA was not affected by the kinase inhibitor DRB or H7 and mutation at the putative CKII phosphorylation sites (serine-2, serine-123, or both), and the putative PKC site (serine-210) of HDAg did not elicit any significant effect on the HDV virion assembly. Therefore, based on the previous work and the present study, it seems that the status and biological significance of phosphorylation of HDAg vary depending on the HDV life cycle. Although in the HDV RNA replication cycle, phosphorylation of small HDAg by CKII or PKC plays important role in HDV replication, phosphorylation of the same HDAg by these two kinases does not occur during the HDV RNA virion assembly, and phosphorylation of the large HDAg by CKII does not confer any regulatory role in the assembly of HDV virion and empty viral particles. Our study also showed that the large HDAg without the small HDAg could efficiently assemble both monomeric and dimeric HDV genomic RNAs into secreted HBV-enveloped virus-like particles. Increasing the transfected small HDAg-expressing plasmid led to an enhancement of the packaging efficiency for the monomeric HDV genomic RNA with little effect on the packaging of dimeric HDV RNA. Similarly, HDAgs could package the trimeric HDV genomic RNA, albeit less efficiently. CsCl density gradient centrifugation confirmed that HDAgs and the monomeric and multimeric (dimer and trimer) HDV genomic RNAs formed an HBV-enveloped virus-like particle at a density of 1.23-1.25 g/ml. Thus, the assembly of the HDV virion seems to not impose much restriction on the size of HDV RNA for packaging.
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PMID:Assembly of hepatitis delta virus particles: package of multimeric hepatitis delta virus genomic RNA and role of phosphorylation. 974 Jul 72

Serum samples were taken from 57 patients with sporadic non-A, -B, and -C (Non A, B, C) acute hepatitis at different times after onset of the disease and tested for the presence of the hepatitis E virus (HEV) RNA, IgM, and low avidity IgG antibodies. The viral antibodies were detected using two ELISA. One assay (GL) was produced using a mixture of recombinant peptides specified by ORF2 and ORF3 of the viral genome. The other was produced with an ORF2 specified peptide, pE2. The latter occurs naturally as homodimer, it is recognized strongly in its dimeric form by human sera and, in the primate model, it confers protection against experimental HEV infection. Nineteen samples were positive for one or more of these acute markers of HEV infection, 14 of which were acute sera with elevated ALT levels and 5 were convalescent sera with normal ALT level. The results showed that icteric phase of sporadic hepatitis lasts for about 17 days and it coincides with a period when viremia is subsiding as HEV antibodies are developing. Viremia was intermittent and all but one of the 5 instances were confined to the icteric phase with elevated ALT levels. On two of these occasions, viremia preceded detection of HEV antibody, on another 2 occasions it was concurrent with the detection of pE2 specific IgM and/or low avidity IgG and only in one case of protracted viremia was the viral genome detected concurrently with avid pE2 IgG antibody. Ten (71%) of the 14 acute sera were reactive for pE2 IgM, eight (57%) were reactive for low avidity pE2 IgG, and six (43%) for the GL IgM. The sensitivity for the diagnosis of acute hepatitis E may be increased to 87% by combining pE2 IgM and viremia. GL IgM was detected later, but persisted for a longer period of time than the pE2 antibodies, and it was the only acute antibody detected in the convalescent sera.
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PMID:Occurrence of hepatitis E virus IgM, low avidity IgG serum antibodies, and viremia in sporadic cases of non-A, -B, and -C acute hepatitis. 1174 57

Group 2 coronaviruses are characterized within the order Nidovirales by a unique genome organization. A characteristic feature of group 2 coronaviruses is the presence of a gene encoding the haemagglutinin-esterase (HE) protein, which is absent in coronaviruses of groups 1 and 3. At least three coronavirus strains within group 2 expressed a structural protein with sialate-4-O-acetylesterase activity, distinguishing them from other members of group 2, which encode an enzyme specific for 5-N-acetyl-9-O-acetylneuraminic acid. The esterases of mouse hepatitis virus (MHV) strains S and JHM and puffinosis virus (PV) specifically hydrolysed 5-N-acetyl-4-O-acetylneuraminic acid (Neu4,5Ac2) as well as the synthetic substrates p-nitrophenyl acetate, 4-methylumbelliferyl acetate and fluorescein diacetate. The K(m) values of the MHV-like esterases for the latter substrates were two- to tenfold lower than those of the sialate-9-O-acetylesterases of influenza C viruses. Another unspecific esterase substrate, alpha-naphthyl acetate, was used for the in situ detection of the dimeric HE proteins in SDS-polyacrylamide gels. MHV-S, MHV-JHM and PV bound to horse serum glycoproteins containing Neu4,5Ac2. De-O-acetylation of the glycoproteins by alkaline treatment or incubation with the viral esterases resulted in a complete loss of recognition, indicating a specific interaction of MHV-like coronaviruses with Neu4,5Ac2. Combined with evidence for distinct phylogenetic lineages of group 2 coronaviruses, subdivision into subgroups 2a (MHV-like viruses) and 2b (bovine coronavirus-like viruses) is suggested.
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PMID:The sialate-4-O-acetylesterases of coronaviruses related to mouse hepatitis virus: a proposal to reorganize group 2 Coronaviridae. 1180 32

Hepatitis delta virus (HDV) contains a viroid-like circular RNA that is presumed to replicate via a rolling circle replication mechanism mediated by cellular RNA polymerases. However, the exact mechanism of rolling circle replication for HDV RNA and viroids is not clear. Using our recently described cDNA-free transfection system (L. E. Modahl and M. M. Lai, J. Virol. 72:5449-5456, 1998), we have succeeded in detecting HDV RNA replication by metabolic labeling with [32P]orthophosphate in vivo and obtained direct evidence that HDV RNA replication generates high-molecular-weight multimeric species of HDV RNA, which are processed into monomeric and dimeric forms. Thus, these multimeric RNAs are the true intermediates of HDV RNA replication. We also found that HDV RNA synthesis is highly temperature sensitive, occurring most efficiently at 37 to 40 degrees C and becoming virtually undetectable at temperatures below 30 degrees C. Moreover, genomic HDV RNA synthesis was found to occur at a rate roughly 30-fold higher than that of antigenomic RNA synthesis. Finally, in lysolecithin-permeabilized cells, the synthesis of full-length antigenomic HDV RNA was completely resistant to high concentrations (100 microg/ml) of alpha-amanitin. In contrast, synthesis of genomic HDV RNA was totally inhibited by alpha-amanitin at concentrations as low as 2.5 microg/ml. Thus, these results suggest that genomic and antigenomic HDV RNA syntheses are performed by two different host cell enzymes. This observation, combined with our previous finding that hepatitis delta antigen mRNA synthesis is likely performed by RNA polymerase II, suggests that the different HDV RNA species are synthesized by different cellular transcriptional machineries.
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PMID:Rolling circle replication of hepatitis delta virus RNA is carried out by two different cellular RNA polymerases. 1190 31


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