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)

The small envelope (E) protein has recently been shown to play an essential role in the assembly of coronaviruses. Expression studies revealed that for formation of the viral envelope, actually only the E protein and the membrane (M) protein are required. Since little is known about this generally low-abundance virion component, we have characterized the E protein of mouse hepatitis virus strain A59 (MHV-A59), an 83-residue polypeptide. Using an antiserum to the hydrophilic carboxy terminus of this otherwise hydrophobic protein, we found that the E protein was synthesized in infected cells with similar kinetics as the other viral structural proteins. The protein appeared to be quite stable both during infection and when expressed individually using a vaccinia virus expression system. Consistent with the lack of a predicted cleavage site, the protein was found to become integrated in membranes without involvement of a cleaved signal peptide, nor were any other modifications of the polypeptide observed. Immunofluorescence analysis of cells expressing the E protein demonstrated that the hydrophilic tail is exposed on the cytoplasmic side. Accordingly, this domain of the protein could not be detected on the outside of virions but appeared to be inside, where it was protected from proteolytic degradation. The results lead to a topological model in which the polypeptide is buried within the membrane, spanning the lipid bilayer once, possibly twice, and exposing only its carboxy-terminal domain. Finally, electron microscopic studies demonstrated that expression of the E protein in cells induced the formation of characteristic membrane structures also observed in MHV-A59-infected cells, apparently consisting of masses of tubular, smooth, convoluted membranes. As judged by their colabeling with antibodies to E and to Rab-1, a marker for the intermediate compartment and endoplasmic reticulum, the E protein accumulates in and induces curvature into these pre-Golgi membranes where coronaviruses have been shown earlier to assemble by budding.
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PMID:Characterization of the coronavirus mouse hepatitis virus strain A59 small membrane protein E. 1066 64

A complete DNA copy of the genome of a Jeryl Lynn strain of mumps virus (15,384 nucleotides) was assembled from cDNA fragments such that an exact antigenome RNA could be generated following transcription by T7 RNA polymerase and cleavage by hepatitis delta virus ribozyme. The plasmid containing the genome sequence, together with support plasmids which express mumps virus NP, P, and L proteins under control of the T7 RNA polymerase promoter, were transfected into A549 cells previously infected with recombinant vaccinia virus (MVA-T7) that expressed T7 RNA polymerase. Rescue of infectious virus from the genome cDNA was demonstrated by amplification of mumps virus from transfected-cell cultures and by subsequent consensus sequencing of reverse transcription-PCR products generated from infected-cell RNA to verify the presence of specific nucleotide tags introduced into the genome cDNA clone. The only coding change (position 8502, A to G) in the cDNA clone relative to the consensus sequence of the Jeryl Lynn plaque isolate from which it was derived, resulting in a lysine-to-arginine substitution at amino acid 22 of the L protein, did not prevent rescue of mumps virus, even though an amino acid alignment for the L proteins of paramyxoviruses indicates that lysine is highly conserved at that position. This system may provide the basis of a safe and effective virus vector for the in vivo expression of immunologically and biologically active proteins, peptides, and RNAs.
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PMID:Rescue of mumps virus from cDNA. 1077 22

Infectious hematopoietic necrosis virus (IHNV) is a Novirhabdovirus and is the causative agent of a devastating acute, lethal disease in wild and farmed rainbow trout. The virus is enzootic throughout western North America and has spread to Asia and Europe. A full-length cDNA of the IHNV antigenome (pIHNV-Pst) was assembled from subgenomic overlapping cDNA fragments and cloned in a transcription plasmid between the T7 RNA polymerase promoter and the autocatalytic hepatitis delta virus ribozyme. Recombinant IHNV (rIHNV) was recovered from fish cells at 14 degrees C, following infection with a recombinant vaccinia virus expressing the T7 RNA polymerase (vTF7-3) and cotransfection of pIHNV-Pst together with plasmids encoding the nucleoprotein N (pT7-N), the phosphoprotein P (pT7-P), the RNA polymerase L (pT7-L), and the nonvirion protein NV (pT7-NV). When pT7-N and pT7-NV were omitted, rIHNV was also recovered, although less efficiently. Incidental mutations introduced in pIHNV-Pst were all present in the rIHNV genome; however, a targeted mutation located in the L gene was eliminated from the recombinant genome by homologous recombination with the added pT7-L expression plasmid. To investigate the role of NV protein in virus replication, the pIHNV-Pst construct was engineered such that the entire NV open reading frame was deleted and replaced by the genes encoding green fluorescent protein or chloramphenicol acetyltransferase. The successful recovery of recombinant virus expressing foreign genes instead of the NV gene demonstrated that the NV protein was not absolutely required for viral replication in cell cultures, although its presence greatly improves virus growth. The ability to generate rIHNV from cDNA provides the basis to manipulate the genome in order to engineer new live viral vaccine strains.
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PMID:Recovery of NV knockout infectious hematopoietic necrosis virus expressing foreign genes. 1107 23

A recombinant mesogenic NDV strain, Beaudette C, and an engineered recombinant NDV expressing an additional gene were generated entirely from cloned cDNAs. For this purpose, a full-length cDNA clone of the virus genome, represented in eight different subgenomic fragments, was assembled in a transcription plasmid between a T7 RNA polymerase promoter and a hepatitis delta virus ribozyme sequence. Infectious NDV could be generated in the cells infected with recombinant vaccinia virus, which expressed T7 RNA polymerase, by simultaneous expression of antigenome-sense NDV RNA from the full-length plasmid and NDV NP, P, and L proteins from cotransfected plasmids. Recombinant virus was then amplified and recovered, either after inoculation of transfection supernatant into the allantoic cavity of embryonated specific-pathogen-free eggs or after further passage in cell culture. Characterization of the recombinant NDV showed similarities in growth and pathogenicity to that of the parental wild-type virus. By using this system, a recombinant NDV containing a foreign gene encoding chloramphenicol acetyltransferase (CAT) was generated. To do this, the CAT transcription cassette containing the CAT open reading frame, flanked by NDV gene start and gene end sequence motifs, was inserted into the region between the HN and L genes of the full-length cDNA. This construct was then used in the generation of a recombinant NDV expressing CAT protein. The CAT gene was maintained stably for at least eight passages without any detectable loss of the gene from the recombinant. Generation of the recombinant virus, however, was associated with reduced plaque size, slower replication kinetics, and more than 100-fold decrease in yield. In addition, the virus showed an increase in mean death time for eggs and a lower intracerebral pathogenicity index in day-old chicks, implicating attenuation of the recombinant virus. Thus, introduction of an additional gene into the NDV genome represents a method to achieve growth retardation and attenuation. These results also indicate that NDV can be engineered to express foreign protein stably and can be manipulated in the future for use as a vaccine vector.
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PMID:Recovery of a virulent strain of newcastle disease virus from cloned cDNA: expression of a foreign gene results in growth retardation and attenuation. 1111 92

MHC class I-restricted cytotoxic T lymphocyte (CTL) response to hepatitis B virus (HBV) surface antigens (HBsAg) has been suggested to play essential roles in viral clearance and pathogenesis of HBV-induced hepatitis. In the present study, we analyzed CTL responses to endogenously synthesized or exogenously introduced HBsAg in C57BL/6 mice (H-2(b)). We show that the endogenously synthesized surface antigens of adr-type HBV encoded by recombinant vaccinia virus efficiently elicit CTL responses in C57BL/6 mice previously defined as non-responders to vaccinia-HBV immunization. We also show that two peptides, S(179-186) (FVQWFVGL) and S(208-216) (ILSPFLPLL), serve as effective motifs for CTL response in H-2(b) system after in vitro restimulation of the primed T cells with either of the two synthetic peptides. S(208-215) has recently been identified as a CTL epitope which could be produced by exogenous pathway only, in contrast to the current result, while S(179-186) appeared a novel epitope for CTL response. In addition, we show that soluble HBsAg also elicits CTL responses in H-2(b) mice upon in vitro restimulation with the two peptides, although less efficiently compared with the recombinant vaccinia viruses. These findings may provide an efficient experimental system for studying H-2(b)-restricted immune responses against endogenously synthesized and exogenously introduced HBsAg.
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PMID:Induction of CTL responses and identification of a novel epitope of hepatitis B virus surface antigens in C57BL/6 mice immunized with recombinant vaccinia viruses. 1116 41

The prototype JHM strain of murine hepatitis virus (MHV) is an enveloped, RNA-containing coronavirus that has been selected in vivo for extreme neurovirulence. This virus encodes spike (S) glycoproteins that are extraordinarily effective mediators of intercellular membrane fusion, unique in their ability to initiate fusion even without prior interaction with the primary MHV receptor, a murine carcinoembryonic antigen-related cell adhesion molecule (CEACAM). In considering the possible role of this hyperactive membrane fusion activity in neurovirulence, we discovered that the growth of JHM in tissue culture selected for variants that had lost murine CEACAM-independent fusion activity. Among the collection of variants, mutations were identified in regions encoding both the receptor-binding (S1) and fusion-inducing (S2) subunits of the spike protein. Each mutation was separately introduced into cDNA encoding the prototype JHM spike, and the set of cDNAs was expressed using vaccinia virus vectors. The variant spikes were similar to that of JHM in their assembly into oligomers, their proteolysis into S1 and S2 cleavage products, their transport to cell surfaces, and their affinity for a soluble form of murine CEACAM. However, these tissue culture-adapted spikes were significantly stabilized as S1-S2 heteromers, and their entirely CEACAM-dependent fusion activity was delayed or reduced relative to prototype JHM spikes. The mutations that we have identified therefore point to regions of the S protein that specifically regulate the membrane fusion reaction. We suggest that cultured cells, unlike certain in vivo environments, select for S proteins with delayed, CEACAM-dependent fusion activities that may increase the likelihood of virus internalization prior to the irreversible uncoating process.
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PMID:Variations in disparate regions of the murine coronavirus spike protein impact the initiation of membrane fusion. 1122 3

The pathogenic mechanisms involved in viral hepatitis are not completely understood. Evidence suggests that the pathology associated with hepatitis C virus (HCV) and hepatitis B virus (HBV) infections are a result of the immune response in the liver to these viruses. The livers of patients with viral hepatitis have been shown to contain elevated numbers of T cells expressing the gamma/delta form of the T-cell receptor for antigen (TCRgammadelta). In this study, we investigated whether liver biopsy specimens obtained from individuals with viral (HCV and/or HBV) or nonviral hepatitis contained TCRgammadelta(+) T cells that could be expanded in vitro by cytokines. A high percentage of liver biopsy specimens obtained from HCV- and/or HBV-infected individuals contained high numbers of TCRgammadelta(+) T cells. In contrast, T-cell lines generated from liver biopsy tissues obtained from individuals with nonviral hepatitis or from normal controls had no preferential expansion of TCRgammadelta(+) T cells. Liver TCRgammadelta(+) T-cell lines from HCV-infected individuals had high levels of non-major histocompatibility complex (MHC)-restricted cytotoxic activity against different targets including primary hepatocytes and produced interferon gamma (IFN-gamma), tumor necrosis factor alpha (TNF-alpha), and interleukin 8 (IL-8) following activation by anti-CD3. Surprisingly, none of these liver TCRgammadelta(+) T-cell lines could recognize any of the structural or nonstructural proteins of HCV and had no cytotoxic activity against cells infected with recombinant vaccinia viruses expressing different HCV proteins. However, the crosslinking of CD81, which has been shown to bind HCV particles and E2, resulted in significant levels of IFN-gamma and TNF-alpha production by liver TCRgammadelta(+) T cells. These results suggest that TCRgammadelta(+) T cells may play a role in the liver pathology of HCV infections.
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PMID:Characterization of liver T-cell receptor gammadelta T cells obtained from individuals chronically infected with hepatitis C virus (HCV): evidence for these T cells playing a role in the liver pathology associated with HCV infections. 1134 61

Antiviral roles of natural killer (NK) cell subsets were examined in C57BL/6 mice infected with murine cytomegalovirus (MCMV) and other viruses, including lymphocytic choriomeningitis virus (LCMV), vaccinia virus (VV), and mouse hepatitis virus (MHV). Each virus vigorously induced an NK cell infiltrate into the peritoneal cavity and liver, causing some redistributions of NK cell subsets defined by monoclonal antibody (mAb) directed against Ly49A, C/I, D, and G2. Striking results were seen with a mAb (1F8) reactive with the positively signaling molecule Ly49H, present in MCMV-resistant C57BL/6 mice. mAb 1F8 also stains Ly49 C and I, but exclusion of those reactivities with mAb 5E6, which recognizes Ly49 C and I, indicated that Ly49H(+) cells infiltrated the peritoneal cavity and liver and were particularly effective at synthesizing interferon gamma. Depletion of 1F8(+) but not 5E6(+) cells in vivo by mAb injections enhanced MCMV titers by 20-1,000-fold in the spleen and approximately fivefold in the liver. Titers of LCMV or VV were not enhanced. These anti-MCMV effects were attributed to prototypical NK1.1(+)CD3(-) NK cells and not to NK1.1(+)CD3(+) "NK/T" cells. This is the first evidence that control of a virus infection in vivo is mediated by a distinct NK cell subset.
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PMID:Murine cytomegalovirus is regulated by a discrete subset of natural killer cells reactive with monoclonal antibody to Ly49H. 1143 70

Hepatitis C virus (HCV) is a leading cause of chronic hepatitis, cirrhosis, and hepatocellular carcinoma. The absence of culture systems permissive for HCV replication has presented a major bottleneck to antiviral development. We sought to recapitulate the early steps in the life cycle of HCV by means of DNA-based expression of viral genomic sequences. Here we report expression of replicating HCV RNA by using a, to our knowledge, novel binary expression system in which cells were transfected with a T7 polymerase-driven full-length HCV cDNA plasmid containing a cis-acting hepatitis Delta ribozyme to control 3' cleavage, and infected with vaccinia-T7 polymerase. HCV genomic and replicative strand synthesis, in addition to protein synthesis, was detectable and depended on full-length HCV sequences. Moreover, the system was capable of generating HCV RNA quasispecies, consistent with the action of the low-fidelity HCV NS5B RNA polymerase. IFN-alpha, but not ribavirin, directly inhibited the viral replicative cycle in these cells, identifying the virus itself and not solely the immune system as a direct target of IFN action. The availability of a cell-based test for viral replication will facilitate screening of inhibitory compounds, analysis of IFN-resistance mechanisms, and analysis of virus-host cell interactions.
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PMID:Hepatitis C virus replication is directly inhibited by IFN-alpha in a full-length binary expression system. 1149 7

Hepatitis delta virus (HDV) superinfection of hepatitis B virus carriers causes severe liver disease and results in a high rate of chronicity. So far, neither sufficient therapy nor vaccines to prevent HBV carriers from superinfection are available. A good model to test vaccine candidates is the woodchuck chronically infected with the woodchuck hepatitis virus (WHV); the woodchuck can be superinfected with HDV and shows a course of infection similar to that of patients. Different strategies have been investigated to establish a protective vaccine against HDV superinfection. Both proteins of HDV (HDAg p24 and p27), which differ only in the C-terminal amino acid sequence, have been used as vaccine candidates. Synthetic peptides derived from B cell epitopes of HDAg and HDAg p24 expressed in Escherichia coli, yeast, or baculovirus have been used to immunize woodchucks. The protein immunization induced a specific antibody response, however, no protection from HDV superinfection was achieved. Vaccinations with vaccinia virus expressing HDAg p24 or p27 and DNA immunization with vectors expressing p24 were also not able to induce a protective immune response, but seemed to modulate the course of HDV superinfection. Thus, new strategies to develop a vaccine to prevent HDV superinfection are needed.
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PMID:Vaccination against hepatitis delta virus infection: studies in the woodchuck (Marmota monax) model. 1150 76


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