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)

We describe here a genetic approach to the analysis of host cell functions involved in determining permissiveness to mouse hepatitis virus (MHV). Using the chemical mutagen, ethyl methane sulfonate (EMS), mouse fibroblast cell mutants were generated which were selected for resistance to cell-killing by MHV. These mutants were then screened for their susceptibility to MHV infection, ability to replicate MHV and relative sensitivity to MHV-induced cell fusion. In contrast to wild type L-2 cells which were acutely and terminally infected by MHV, all five mutants examined replicated MHV in a persistent manner. These mutants showed a reduced susceptibility to MHV infection and an increased resistance to MHV-induced cell fusion. Fusion resistance was specific to that mediated by the MHV E2 protein; mutant as well as wild type L-2 cells were equally sensitive to fusion by polyethylene glycol. The combined effect of reduced infectability and increased fusion resistance was to limit MHV infection to only a small percentage of the total cells in culture, thereby permitting survival of both virus and cells. The observed high rate of generation of the cell mutants suggests that the conversion of a fully MHV-susceptible cell to a semi-resistant one (capable of supporting a persistent infection) is a fairly common event, possibly involving a single mutation.
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PMID:Mouse fibroblast mutants selected for survival against mouse hepatitis virus infection show increased resistance to infection and virus-induced cell fusion. 196 53

In confirmation of previous reports, we observed lysis of mouse hepatitis virus (MHV)-infected target cells in the presence of spleen and lymph node cells from nonimmunized mice possessing a B cell surface phenotype (IgM+, IgG+, J11d+, Ia+, Fc+, Thy1-, MAC-1- and asialo-GM1-). Lysis was inhibited by MHV-specific antisera. The presence of immunoglobulin at the surface of B cells is not required for cytolysis since MHV-infected target cells are lysed in the presence of the B cell hybridoma Sp2/0, which fails to synthesize immunoglobulin. Using 51Cr-labelled Sp2/0 cells, both target and effector cells were shown to undergo cytolysis. Direct observation of target and effector cells co-incubated after labelling with different fluorescent dyes demonstrated that lysis correlates with the fusion of B cells and MHV-infected cells. These findings are consistent with the idea that the E2 protein of MHV, which is expressed on the infected cell surface and has receptor and membrane-fusion activities at neutral pH, selectively mediates fusion with cells of B lymphocyte lineage. This may represent a general mechanism by which enveloped viruses with fusion proteins that function at neutral pH can interfere with the function of subsets of immune cells.
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PMID:Target and effector cell fusion accounts for B lymphocyte-mediated lysis of mouse hepatitis virus-infected cells. 254 86

The gene encoding the E2 peplomer glycoprotein of coronavirus mouse hepatitis virus JHM strain (JHMV) has been inserted into the genome of Autographa californica nuclear polyhedrosis baculovirus (AcNPV) in lieu of the coding region of the AcNPV polyhedrin gene. This recombinant virus produced E2 protein in insect cells under the control of the baculovirus polyhedrin promotor. The expressed E2 protein was shown in size and antigenic properties to be similar to the E2 protein produced in mouse cells infected by JHMV. The expressed E2 protein was glycosylated and transported to the cell surface; however, no proteolytic cleavage was detected in insect cells. The sera from rats immunized with partially purified E2 protein derived from insect cells reacted in immunoprecipitation and immunofluorescence experiments with the E2 protein produced in JHMV-infected mouse cells. The antiserum failed to neutralize the infectivity of JHMV. These results suggest that the E2 protein expressed by the recombinant baculovirus in insect cells is similar but not identical to the E2 protein produced in JHMV-infected mouse cells. The inability of the E2 protein expressed in insect cells to produce neutralizing antibody is discussed.
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PMID:Expression of the peplomer glycoprotein of murine coronavirus JHM using a baculovirus vector. 255 44

The coding assignments of the intracellular murine hepatitis virus-specific subgenomic RNA species and murine hepatitis virion RNA have been investigated by cell-free translation. The six murine hepatitis virus-specific subgenomic RNAs were partially purified by agarose gel electrophoresis and translated in an mRNA-dependent rabbit reticulocyte lysate, and the cell-free translation products were characterized by gel electrophoresis, immunoprecipitation, and tryptic peptide mapping. These studies have shown that RNA 7 codes for the nucleocapsid protein, RNA 6 codes for the E1 protein, RNA 3 codes for the E2 protein, and RNA 2 codes for a 35,000-dalton nonstructural protein. Genomic RNA directs the cell-free synthesis of three structurally related polypeptides of greater than 200,000 in molecular weight.
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PMID:Cell-free translation of murine coronavirus RNA. 629 69

Putative hepatitis C virus E2 protein was applied for detection of anti-E2 antibody in patients with type C hepatitis. The Putative E2 sequence was expressed in E. coli and approximately 38 KDa hepatitis C E2 protein fused with 42 KDa maltose binding protein was obtained. The HCV E2 antibody was detected in 2 of 7 acute hepatitis cases, in 8 of 12 chronic persistent hepatitis, in 17 of 25 chronic active hepatitis, and in 2 of 4 cirrhosis. It was not detected in 10 normal subjects. Anti-E2 antibody became undetectable after successful interferon treatment in patients with type C hepatitis. The High detection rate of E2 antibody in chronic hepatitis C and disappearance of the antibody after the interferon treatment indicate that the E2 antibody is related to viral replication and is unlikely to be a neutralizing antibody.
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PMID:High detection rate of hepatitis C virus E2 antibody in patients with type C hepatitis. 768 7

A Chinese hamster ovary cell line was established which abundantly expresses the second envelope protein (E2) of hepatitis C virus under the control of an exogenous promoter. The expressed E2 protein was found to be a glycoprotein of 58 kDa by immunoprecipitation with sera from patients that had chronic hepatitis C. Using this cell line as antigen in immunofluorescence tests, as high as 93% of patients with non-A non-B hepatitis had antibodies against E2 protein. In Western blots using SDS-denatured E2 protein, however, the detectability of the antibody was drastically reduced to 30%. Immunoprecipitation assays and ELISA, using both native and denatured E2 protein, revealed that antibodies to E2 protein were present in most of the chronic hepatitis C patients and that they reacted only to the native forms.
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PMID:Establishment of a cell line constitutively expressing E2 glycoprotein of hepatitis C virus and humoral response of hepatitis C patients to the expressed protein. 773 Aug 6

We report on molecular characterization of hepatitis C virus (HCV) isolates in intravenous drug abusers, as compared to non-drug using patients with posttransfusion hepatitis or sporadic hepatitis of unknown origin. Virus typing was performed by RFLP analysis of PCR products in the 5' NCR. Subtyping was done by hybridization with subtype specific probes or by sequencing in the NS4 and NS5 region, respectively. HCV subtype 1b was found most commonly among all the isolates. However, the subtype 3a had a high prevalence (about 46%) in the group of drug addicts. In these subtype 3a isolates the N-terminal part of the E2 protein was highly variable. This confirms the presence of a hypervariable region (HVR1) in this envelope protein found in all hepatitis C viruses. Each subtype 3a isolate examined had a characteristic unique hypervariable region in the E2 protein. It is noteworthy that there are four amino acids in this region which were highly conserved between all HCV sequences published. It can be assumed that such conserved amino acids are significant for structure and function of this viral protein. In our HCV subtype 3a isolates the NS5 sequences were highly conserved.
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PMID:Hepatitis C virus (HCV) genotype distribution in German isolates: studies on the sequence variability in the E2 and NS5 region. 783 43

The hypervariable domain (HVR1) within the N-terminus of the E2 protein of hepatitis C virus (HCV) is known to be variable antigenically during the course of persistent infection. The aim of the study was to detect B-cell epitopes in HVR1 responsible for neutralizing HCV. The B-cell epitopes were analyzed using two series of synthetic peptides: 25 heptapeptides from the most common amino acids within 73 HVR1 sequences, and 216 heptapeptides, the sequences of which cover more than 65% of the 73 HVR1 sequences. Sera from three patients with chronic hepatitis C were tested for reactivity to the synthetic peptide sequences by enzyme-linked immunosorbent assay (ELISA). The post-interferon (IFN) serum of one patient who had a long-term response to treatment reacted specifically with 13 heptapeptides of 216 variable sequences of HVR1. Some of the amino acid sequences (amino acids 398, 399, 400, 404) of the heptapeptides were also found in those deduced from the nucleotide sequences of HCV genomes in the pre-IFN serum. The sera of the other two patients who did not respond to treatment did not react with the 13 heptapeptides. It is concluded that the B-cell epitopes in HVR1 may be relevant for eliminating viremia in the case of the patient who had a good response to treatment. These results suggest that the analysis of the B-cell epitopes recognized in HVR1 may be important in understanding the mechanism of persistent infection and progression of hepatitis.
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PMID:B-cell epitopes in hypervariable region 1 of hepatitis C virus obtained from patients with chronic persistent hepatitis. 889 39

The identification of the neutralization domains of hepatitis C virus (HCV) is essential for the development of an effective vaccine. Here, we show that the hypervariable region 1 (HVR1) of the envelope 2 (E2) protein is a critical neutralization domain of HCV. Neutralization of HCV in vitro was attempted with a rabbit hyperimmune serum raised against a homologous synthetic peptide derived from the HVR1 of the E2 protein, and the residual infectivity was evaluated by inoculation of HCV-seronegative chimpanzees. The source of HCV was plasma obtained from a patient (H) during the acute phase of posttransfusion non-A, non-B hepatitis, which had been titered for infectivity in chimpanzees. The anti-HVR1 antiserum induced protection against homologous HCV infection in chimpanzees, but not against the emergence of neutralization escape mutants that were found to be already present in the complex viral quasispecies of the inoculum. The finding that HVR1 can elicit protective immunity opens new perspectives for the development of effective preventive strategies. However, the identification of the most variable region of HCV as a critical neutralization domain poses a major challenge for the development of a broadly reactive vaccine against HCV.
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PMID:Prevention of hepatitis C virus infection in chimpanzees by hyperimmune serum against the hypervariable region 1 of the envelope 2 protein. 898 22

A new hepatitis-associated RNA virus of the Flaviviridae family has been identified and named GB virus C/ hepatitis G virus (HGV). We carried out a case-control study to evaluate the association of HGV infection with hepatocellular carcinoma (HCC). We recruited 170 patients hospitalized for HCC (143 male and 27 female, mean age 64 years) and 306 patients hospitalized for nonliver diseases (controls) in Brescia, Italy. HGV RNA was detected by reverse transcription-polymerase chain reaction (RT-PCR) and antibodies against HGV E2 protein (anti-E2) by an immunoassay test. HGV RNA was found in 8 cases (4.7%) and 4 controls (1.3%). The relative risk (RR) for HGV RNA positivity adjusted for demographic variables and hepatitis B surface antigen (HBsAg), hepatitis C virus (HCV) RNA, and alcohol was 7.3 (95% confidence interval, 1.7-30.6; P = .009). No HGV RNA-positive subject was also positive for anti-E2. Anti-E2 prevalence did not differ significantly between cases (20%) and controls (15.3%), and no RR increase was found by this marker. Among subjects with HGV exposure (HGV RNA plus anti-E2 positive), a greater proportion of cases (40%) than controls (14%) had transfusion history. The possible role of HGV in HCC etiology seems modest because the population-attributable risk is lower (4%) than those for HBsAg (22%), HCV RNA (36%), and heavy alcohol intake (52%). This study supports the hypothesis of an association between HGV infection and HCC, although at present there are insufficient data on the causality of the association.
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PMID:A case-control study on GB virus C/hepatitis G virus infection and hepatocellular carcinoma. Brescia HCC Study. 939 12

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