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 indirect immunofluorescence antibody test is currently the method of choice for Q-fever laboratory diagnosis. It permits the detection of IgG-, IgM-, and IgA-specific antibodies against the two phases of Coxiella burnetii. Sera from 20 cases of C. burnetii infection have been examined. Only total IgG against phase II were detected in cryptic infections. In acute Q-fever cases, the appearance of total IgG antibodies against phase I was a sign of aggravation, while IgM titers remained low. In subacute cases of Q-fever, anti-phase-I IgG titers were equal to or higher than anti-phase-II titers, and IgM against both phases were produced over a long time. Particularly high IgM titers were found in cases of granulomatous hepatitis. IgA antibodies against phase I were found in cases of Q-fever endocarditis, although the two cases that died had few or no IgA antibodies, despite very high IgG and IgM titers.
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PMID:Immunofluorescence serology. A tool for prognosis of Q-fever. 389 27

Sporadic non-A, non-B hepatitis is the most common indication for liver transplantation in patients presenting with fulminant and subacute liver failure. This study used serological, histological, and molecular biological techniques to examine specimens from 23 consecutive patients transplanted for sporadic non-A, non-B hepatitis. No evidence was found of hepatitis C virus, hepatitis E virus, or 'cryptic' hepatitis B virus infection.
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PMID:Failure to incriminate hepatitis B, hepatitis C, and hepatitis E viruses in the aetiology of fulminant non-A non-B hepatitis. 769 4

Non-A, non-B hepatitis viruses have been implicated as the etiological agent(s) in up to 60% of patients with fulminant hepatitis. These agents are reported to induce a higher mortality than other causes of fulminant hepatitis. Hepatitis E virus (HEV) and hepatitis C virus (HCV) at present constitute the major identifiable non-A, non-B hepatitis agents. Of these, HEV has been established as the sole cause of epidemic hepatitis in Afro-Asian countries, and fulminant hepatitis has been recorded during such epidemics. However, in sporadic cases, the etiological role of HEV in fulminant hepatitis has remained uncertain. The role of HCV in acute liver disease and fulminant hepatitis remains unclear. The present study was undertaken to investigate the association of HEV and HCV in patients with fulminant hepatitis by direct detection of the viral genome using reverse transcription-polymerase chain reaction (RT-PCR). Serum samples from 50 serologically identified non-A, non-B fulminant hepatitis cases negative for cryptic hepatitis B virus (HBV) infection examined via PCR were tested for HEV and HCV RNA using RT-PCR. For HEV primers from the nonstructural region (ORF-1) were used, and for HCV primers from the highly conserved 5' untranslated regions were used. The products were analysed using agarose gel electrophoresis and confirmed by hybridisation with radiolabelled internal oligonucleotide probes. HEV was detected in 31 (62%) of the 50 fulminant non-A, non-B hepatitis cases. In 18 (36%) cases, HCV RNA was detected. In 11 (22%) of the HCV cases, the HEV genome was also amplified. In 20 (40%) cases, HEV was detected alone.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Etiological role of hepatitis E virus in sporadic fulminant hepatitis. 815 8

A major proportion of sporadic cases of ALF remain of uncertain cause (formerly termed NANB hepatitis). The application of sensitive molecular biology techniques such as PCR indicates that a few cases may be due to cryptic infections with one or more known hepatotropic agents, such as HBV and HCV. Evidence continues to accumulate to incriminate at least one potentially novel and transmissible agent (candidate hepatitis F). In ALF of unknown pathogenesis, survival without transplantation remains less than 20% despite recent improvements in medical management. Close study of recurrent hepatitis after grafting may provide further clues to the possible causes of ALF and the interaction between infectious agent and host. The continued pursuit of potential causes seems justified to allow stratification according to possible pathogeneses. This scientific approach should provide a rational basis for future therapeutic options.
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PMID:Acute liver failure of unknown pathogenesis: the hidden agenda. 817 56

The complementary DNA (cDNA) of hepatitis delta virus (HDV), constructed as tandem repeats under appropriate exogenous promoters, has been used to initiate viral replication in transfection experiments. Whether the structure of tandem repeats is essential has not yet been systematically examined. In this study, expression vectors containing only an HDV cDNA monomer, permutated at unique position of the genome, were shown still able to initiate viral replication. Furthermore, HDV cDNA monomer, separated from plasmid sequences by restriction enzyme digestion, also could be used to initiate viral RNA replication. The competence of HDV cDNA alone to direct viral RNA production suggested the presence of cryptic internal promoter-like elements. Such elements actually demonstrated by the chloramphenicol acetyltransferase assay. Therefore, HDV cDNA, in contrast to that of viroids, could be used to initiate viral RNA replication in monomeric form. This observation simplified the use of HDV cDNA for studying viral biology in transfection systems.
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PMID:Hepatitis delta virus cDNA monomer can be used in transfection experiments to initiate viral RNA replication. 821 49

Hepatitis delta virus requires a helper function from hepatitis B virus for packaging, release, and infection of hepatocytes. The assembly of large delta antigen (HDAg) is mediated by copackaging with the small surface antigen of hepatitis B virus (HBsAg), and the assembly of small HDAg requires interactions with large HDAg. To examine the molecular mechanisms by which small HBsAg, large HDAg, and small HDAg interact, we have established a virion assembly system in COS7 cells by cotransfecting plasmids encoding the small HBsAg, the small HDAg, and large HDAg mutants. Results indicate that sequences within the C-terminal 19-amino-acid domain flanking the Cxxx isoprenylation motif are important for the assembly of large HDAg. In addition, a large HDAg mutant bearing extra sequences separating the C-terminal 19-amino-acid domain from the common regions of the small and large HDAgs is capable, like the wild-type large HDAg, of copackaging with small HBsAg. The ability of assembly is also demonstrated for a large HDAg mutant from which nuclear localization signals have been removed. Furthermore, a cryptic signal within the N-terminal 50 amino acid residues other than the putative N-terminal coiled-coil structure and a subdomain between amino acid residues 50 and 65 of the large HDAg are important for the assembly of small HDAg as well as the trans-dominant negative regulation of large HDAg in hepatitis delta virus replication.
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PMID:Mutational analysis of delta antigen: effect on assembly and replication of hepatitis delta virus. 828 68

The functions of delta antigens (HDAgs) in the replication of hepatitis delta virus (HDV) have been identified previously. The small HDAg acts as a transactivator, whereas the large HDAg has a negative effect on replication. To understand the molecular mechanisms involved in the control of HDV replication, we have established a replication system in Huh-7 cells by cotransfecting a monomeric cDNA genome of HDV and a plasmid encoding the small HDAg. We demonstrate that a leucine repeat in the middle domain of the small HDAg is involved in binding to the HDV genome and transactivation of HDV replication. When the leucine repeat was disrupted by a substitution of valine for leucine at position 115, both RNA-binding and transactivation activity of the small HDAg were abolished. In contrast, the binding and transactivation activities were not affected when Leu-37 and Leu-44 of the small HDAg were replaced by valines. In addition, small and large HDAgs can interact with each other to form protein complexes in vitro. The complex formation that may lead to the trans-dominant negative regulation of large HDAg in HDV replication is mediated by a cryptic signal located between amino acid residues 35 and 65 other than the putative N-terminal leucine zipper motif. Furthermore, an extra 21-amino-acid extension near the N terminus converts the small HDAg into a pseudo-large HDAg with negative regulation activity of HDV replication even though the extreme C-terminal residue is unchanged.
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PMID:Functional motifs of delta antigen essential for RNA binding and replication of hepatitis delta virus. 847 58

In our studies of murine coronavirus transcription, we continue to use defective interfering (DI) RNAs of mouse hepatitis virus (MHV) in which we insert a transcription consensus sequence in order to mimic subgenomic RNA synthesis from the nondefective genome. Using our subgenomic DI system, we have studied the effects of sequences flanking the MHV transcription consensus sequence on subgenomic RNA transcription. We obtained the following results. (i) Insertion of a 12-nucleotide-long sequence including the UCUAAAC transcription consensus sequence at different locations of the DI RNA resulted in different efficiencies of subgenomic DI RNA synthesis. (ii) Differences in the amount of subgenomic DI RNA were defined by the sequences that flanked the 12-nucleotide-long sequence and were not affected by the location of the 12-nucleotide-long sequence on the DI RNA. (iii) Naturally occurring flanking sequences of intergenic sequences at gene 6-7, but not at genes 1-2 and 2-3, contained a transcription suppressive element(s). (iv) Each of three naturally occurring flanking sequences of an MHV genomic cryptic transcription consensus sequence from MHV gene 1 also contained a transcription suppressive element(s). These data showed that sequences flanking the transcription consensus sequence affected MHV transcription.
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PMID:Coronavirus transcription mediated by sequences flanking the transcription consensus sequence. 859 16

We have analysed abnormal virus RNAs produced from integrated woodchuck hepatitis virus (WHV) sequences in two woodchuck liver tumours. Analysis of cDNA clones revealed that these transcripts consisted of rearranged, virus-specific RNAs encoding the WHV surface antigens. In one tumour, transcription was driven by the major preS2/S promoter and terminated at a cryptic poly(A) signal in the 5' end of the P gene, giving rise to a truncated version of the normal viral S message. In contrast, the integrated preS2/S promoter remained silent in the second tumour. The start sites of two abundant WHV transcripts encoding the large and middle surface proteins were localized about 100 bp upstream and 300 bp downstream of the preS1 translation initiation codon, corresponding to minor start sites of the normal surface protein mRNAs in chronically infected liver. Thus, the preS1 promoter, a weak promoter in episomal replicative forms of the virus, was activated in the integrated state in this tumour. Our results indicate that alternative usage of the preS1 or the preS2/S promoter in the integrated state may yield differential production of the three virus surface proteins in woodchuck liver tumours.
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PMID:Unusual activation of the integrated preS1 promoter of woodchuck hepatitis virus in a liver tumour. 862 20

A site capable of strictly host- and cell type-specific recognition was identified in the preS1 domain of woodchuck hepatitis virus (WHV) through the use of antipeptide antisera generated against the extreme N-terminal fragment of the large virus envelope protein. The crucial determinant of this binding site was mapped to amino acids 10-13. Although a synthetic analogue of the site was highly immunogenic, natural WHV envelope did not display the site activity unless it was modified by proteolysis or acidic pH treatment, indicating an internal location of the determinant in viral envelope. Synthetic peptides encompassing the sequence of this site bound woodchuck lymphoid cells and hepatocytes in a species-restricted manner which followed characteristics of a specific ligand-receptor interaction, although their ability to interact with lymphoid cells was considerably greater than that for hepatocytes. In WHV-infected animals, a natural antibody to the identified cryptic cell-binding site arose independently of that directed against epitopes of unmodified virus envelope and its appearance constituted the earliest immunovirological indicator of virus invasion. Our results demonstrated that the preS1 domain of the large WHV envelope protein is endowed with the species- and cell type-specific recognition site which is protected against antibody surveillance by the natural tertiary structure of the protein and we suggest that proteolytic cleavage is required to induce the binding activity.
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PMID:Protease-activated lymphoid cell and hepatocyte recognition site in the preS1 domain of the large woodchuck hepatitis virus envelope protein. 876 Apr 35

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