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Query: UMLS:C0019158 (hepatitis)
 30,205 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Transfection of a plasmid encoding the Epstein-Barr virus (EBV) nuclear antigen 2 (EBNA2) gene confers resistance to the antiproliferative effect of alpha interferon (IFN-alpha) in EBV-negative U968 cells (P. Aman and A. von Gabain, EMBO J. 9:147-152, 1990). We studied the expression of IFN-stimulated genes (ISGs) in two pairs of Burkitt's lymphoma cell lines, differing in the expression of the putative immortalizing gene of EBV, EBNA2. In EBNA2-expressing cells, the induction of four ISGs by IFN-alpha was strongly reduced or, in some cases, abolished. Chloramphenicol acetyltransferase reporter gene constructs containing different IFN-stimulated response elements were transfected into EBNA2-negative and EBNA2-positive cells. Induction of chloramphenicol acetyltransferase activity by IFN was impaired in EBNA2-positive cells. Also, a reporter gene construct driven by an IFN-gamma-sensitive promoter element was affected. However, as revealed by gel shift assays, EBNA2-positive and EBNA2-negative cells exhibited a nearly identical pattern of IFN-stimulated response element-binding proteins. Most important, activation of the factor ISGF-3, which previously has been shown to be required and sufficient for transcriptional activation of IFN-induced genes, was not inhibited in IFN-resistant cells expressing EBNA2. The mechanism of the EBNA2-related IFN resistance seems to be distinct both from the resistance mediated by hepatitis virus and adenovirus gene products and from the IFN resistance in Daudi cell variants. In these three cases, the transcriptional block of IFN-induced genes is due to inhibition of ISGF-3 activation and binding. Our data suggest that the EBNA2-related IFN resistance in Burkitt's lymphoma cells acts downstream of the activation of ISGF-3.
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PMID:The EBNA2-related resistance towards alpha interferon (IFN-alpha) in Burkitt's lymphoma cells effects induction of IFN-induced genes but not the activation of transcription factor ISGF-3. 140 70

An 88-base pair fragment in the core promoter of the human hepatitis B virus (HBV) contains a functional promoter and a strong liver-specific enhancer. This enhancer functions in human hepatoma cells, where it is much more active than the previously described HBV enhancer in stimulating expression of the linked bacterial chloramphenicol acetyltransferase gene expressed from heterologous promoters. Studies of the role of this enhancer-promoter in HBV may help to clarify mechanisms of gene expression in cells infected with HBV and the role of the virus in the pathogenesis of hepatitis and hepatocellular carcinoma.
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PMID:A liver-specific enhancer in the core promoter region of human hepatitis B virus. 255 95

A segment from the pre-s region of the woodchuck hepatitis virus (WHV) was inserted into an open reading frame vector allowing for the expression in Escherichia coli of viral determinants as part of a fusion protein. The bacterially synthesized fusion molecule contained eight amino acids from beta-galactosidase (beta-gal) at the N terminus, followed by 89 pre-s-encoded amino acids and 219 amino acids of chloramphenicol acetyltransferase (CAT) at the C terminus (beta-gal:pre-s:CAT). This tribrid protein was used to generate antiserum which had a significant titer to the viral portion of the fusion polypeptide. Anti-beta-gal:pre-s:CAT was used in Western blot analysis to identify viral proteins containing pre-s-encoded determinants. Antiserum to the tribrid molecule recognized four WHV polypeptides with molecular masses of 33, 36, 45, and 47 kilodaltons, each of which was also recognized by a monoclonal antibody to WHV surface antigen. Using the same anti-tribrid serum, we also identified analogous polypeptides from ground squirrel hepatitis virus. The antiserum was also used to immunoprecipitate virus particles containing endogenous DNA polymerase activity, indicating that pre-s determinants are found on the surface of mature virions. Based on previous computer studies and the location of pre-s-encoded molecules on the surface of virus particles, a role in hepadnavirus host cell entry is suggested for these polypeptides.
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PMID:Identification and localization of pre-s-encoded polypeptides from woodchuck and ground squirrel hepatitis viruses. 394 37

The hepatitis delta virus (HDV) genome consists of circular ssRNA which has extensive intramolecular complementarity and can form a dsRNA rod-like structure. If such RNA species were to exist in an unmasked form in cells, they would be expected to induce interferon (IFN) expression and activate two IFN-inducible dsRNA-dependent enzymes with anti-viral activity, namely the dsRNA-dependent protein kinase (PKR) and 2',5' oligoadenylate (2',5' A) synthetase. Since the virus replicates to high copy number for prolonged periods in infected cells it is apparently able to evade these antiviral mechanisms. The RNA genome may be masked and fail to induce or activate the antiviral response, or the virus may inhibit such a response. Treatment of a hepatoma cell line, Huh7, and a fibrosarcoma cell line, HT1080, stably transfected with a trimeric HDV cDNA construct, with IFN-alpha or IFN-gamma for up to seven days failed to influence the level of expression of genomic or antigenomic HDV RNA, or delta antigen (Ag). This is consistent with either failure of activation or inhibition of the IFN response. However the induction of several IFN-responsive genes, including PKR, 2',5' A synthetase and class I MHC is normal and cotransfection of a construct expressing delta Ag did not affect expression from an IFN-inducible chloramphenicol acetyltransferase construct. In addition, the activation of PKR is not inhibited in HDV-expressing cells and antiviral assays suggest that the ability of these cells to mount an antiviral response to at least two cytopathic viruses is unaffected. IFN-beta is inducible normally by dsRNA in cells transfected with the delta cDNA trimer. We conclude that HDV replication is not inhibited by IFN-alpha or IFN-gamma, even though the responses of cells expressing HDV RNA and antigen to IFN and dsRNA are intact.
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PMID:Hepatitis delta virus replication in vitro is not affected by interferon-alpha or -gamma despite intact cellular responses to interferon and dsRNA. 791 7

Minus-strand RNA is the first RNA species made by plus-strand RNA viruses, such as mouse hepatitis virus (MHV), and serves as a template for subsequent RNA replication and transcription. The regulation of minus-strand RNA synthesis has been difficult to study because of the paucity of minus-strand RNA. We have optimized a ribonuclease (RNase) protection assay which enabled the detection of minus-strand RNA synthesis from nonreplicating RNAs, thus clearly separating minus-strand from plus-strand RNA synthesis. We used an MHV defective interfering (DI) RNA containing a chloramphenicol acetyltransferase gene as a reporter to determine the cis-acting signal for MHV minus-strand RNA synthesis. It was found that minus-strand RNAs existed in double-stranded RNA form in the cell. By using various deletion clones, we demonstrated that the cis-acting signal for minus-strand RNA synthesis resides in the 55 nucleotides from the 3' end plus poly(A) tail of the MHV genome. This is much shorter than the 436 nucleotides previously reported for the 3'-end replication signal. No specific upstream MHV sequence was required for the initiation of minus-strand RNA synthesis. This finding suggests that the requirement for minus-strand RNA synthesis is much less stringent than that for genomic and subgenomic plus-strand RNA synthesis and that some of the minus-strand RNAs made may not be functional since they may lack the recognition signals for RNA replication or transcription. We further showed that the DI clones which actively transcribed a subgenomic mRNA from an internal intergenic sequence synthesized much less minus-strand RNA than those clones which did not transcribe subgenomic mRNAs, indicating that minus-strand RNA synthesis was inhibited by transcription from an internal promoter of the same DI RNA. This result also suggests that the regulation of the quantities of subgenomic mRNAs is not at the point of minus-strand RNA synthesis but rather at plus-strand RNA synthesis. Furthermore, the finding that the leader sequence was not required for minus-strand RNA synthesis suggests that the leader RNA regulates mRNA transcription during plus-strand RNA synthesis.
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PMID:Identification of the cis-acting signal for minus-strand RNA synthesis of a murine coronavirus: implications for the role of minus-strand RNA in RNA replication and transcription. 796 4

We have developed a defective interfering (DI) RNA containing a chloramphenicol acetyltransferase reporter gene, placed behind an intergenic sequence, for studying subgenomic mRNA transcription of mouse hepatitis virus (MHV), a prototype coronavirus. Using this system, we have identified the sequence requirement for MHV subgenomic mRNA transcription. We show that this sequence requirement differs from that for RNA replication. In addition to the previously identified requirement for an intergenic (promoter) sequence, additional sequences from the 5' end of genomic RNA are required for subgenomic mRNA transcription. These upstream sequences include the leader RNA and a spacer sequence between the leader and intergenic sequence, which is derived from the 5' untranslated region and part of gene 1. The spacer sequence requirement is specific, since only the sequence derived from the 5' end of RNA genome, but not from other MHV genomic regions or heterologous sequences, could initiate subgenomic transcription from the intergenic sequence. These results strongly suggest that the wild-type viral subgenomic mRNAs (mRNA2 to mRNA7) and probably their counterpart subgenomic negative-sense RNAs cannot be utilized for mRNA amplification. Furthermore, we have demonstrated that a partial leader sequence present at the 5' end of genome, which lacks the leader-mRNA fusion sequence, could still support subgenomic mRNA transcription. In this case, the leader sequences of the subgenomic transcripts were derived exclusively from the wild-type helper virus, indicating that the MHV leader RNA initiates in trans subgenomic mRNA transcription. Thus, the leader sequence can enhance subgenomic transcription even when it cannot serve as a primer for mRNA synthesis. These results taken together suggest that the 5'-end leader sequence of MHV not only provides a trans-acting primer for mRNA initiation but also serves as a cis-acting element required for the transcription of subgenomic mRNAs. The identification of an upstream cis-acting element for MHV subgenomic mRNA synthesis defines a novel sequence requirement for regulating mRNA synthesis in RNA viruses.
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PMID:Requirement of the 5'-end genomic sequence as an upstream cis-acting element for coronavirus subgenomic mRNA transcription. 803 75

Coronavirus mRNA transcription was thought to be regulated by the interaction between the leader RNA and the intergenic sequence (IS), probably involving direct RNA-RNA interactions between complementary sequences. In this study, we found that a particular strain of mouse hepatitis virus, JHM2c, which has a deletion of a 9-nucleotide (nt) sequence (UUUAUAAAC) immediately downstream of the leader RNA, transcribed subgenomic mRNA species containing a whole array of heterogeneous leader fusion sites. Using a transfected defective interfering RNA which contains an IS and a reporter (chloramphenicol acetyltransferase) gene and JHM2c as a helper virus, we demonstrated that subgenomic mRNAs transcribed from the defective interfering RNAs were extremely heterogeneous. The leader-mRNA fusion sites in this virus can be grouped into five types. In type I, the leader is fused with the consensus IS of the template RNA at a site within the UCUAA repeats, consistent with the classical model of discontinuous transcription. In type II, the leader is fused with the consensus IS as in type I, but the leader of mRNA contains some nucleotide substitutions within the UCUAA repeats. In type III, the leader is fused with mRNAs at a site either upstream or downstream of the consensus IS. The sequences around the fusion sites bear little or no homology to the leader. As a result, mRNAs contain sequences complementary to the template sequences upstream of the IS or have sequence deletions downstream of the IS. In type IV, the leader is fused to the IS at the 9-nt sequence immediately downstream of the UCUAA repeats. In type V, the leader-mRNA fusion site contains a duplication of a portion of the leader sequence or an insertion of nontemplated sequences which are not present in either leader or template RNA. These patterns of leader-mRNA fusion resemble the aberrant homologous recombination frequently seen in other RNA viruses. The degree of heterogeneity of leader fusion sites is dependent on the sequences of both the leader RNA and IS. These results suggest that leader-mRNA fusion in coronavirus transcription does not require direct RNA-RNA interaction between complementary sequences. A modified model of RNA transcription and recombination based on protein-RNA and protein-protein interactions is proposed. This study also provides a paradigm for aberrant homologous recombination.
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PMID:Unusual heterogeneity of leader-mRNA fusion in a murine coronavirus: implications for the mechanism of RNA transcription and recombination. 808 98

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

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

All of the defective interfering (DI) RNAs of mouse hepatitis virus (MHV) contain both the 5' and 3' ends of the viral genomic RNA, which presumably include the cis sequences required for RNA replication. To define the replication signal of MHV RNA, we have used a vaccinia virus-T7 polymerase-transcribed MHV DI RNA to study the effects of sequence deletion on DI RNA replication. Following infection of susceptible cells with a recombinant vaccinia virus expressing T7 RNA polymerase, various cDNA clones derived from a DI RNA (DIssF) of the JHM strain of MHV, which is a 3.5-kb naturally occurring DI RNA, behind a T7 promoter were transfected. On superinfection with a helper MHV, the ability of various DI RNAs to replicate was determined. Serial deletions from the middle of the RNA toward both the 5' and 3' ends demonstrated that 859 nucleotides from the 5' end and 436 nucleotides from the 3' end of the MHV RNA genome were necessary for RNA replication. Surprisingly, an additional stretch of 135 nucleotides located at 3.1 to 3.3 kb from the 5' end of the genome was also required. This stretch is discontiguous from the 5'-end cis replication signal and is present in all of the naturally occurring DI RNAs studied so far. The requirement for a long stretch of 5'- and 3'-end sequences predicts that the subgenomic MHV mRNAs cannot replicate. The efficiency of RNA replication varied with different cDNA constructs, suggesting possible interaction between different regions of DI RNA. The identification of MHV RNA replication signals allowed the construction of an MHV DI-based expression vector, which can express foreign genes, such as the chloramphenicol acetyltransferase gene.
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PMID:Deletion mapping of a mouse hepatitis virus defective interfering RNA reveals the requirement of an internal and discontiguous sequence for replication. 839 72


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