Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0019163 (hepatitis B)
38,309 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hepadnavirus polymerases initiate reverse transcription in a protein-primed reaction that involves the covalent linkage of the first deoxyribonucleotide to the polymerase polypeptide. Analysis of the initial steps in this reaction as well as certain details of genome replication has been hampered by the difficulties encountered in the expression of functional hepadnavirus polymerases in heterologous systems. We have expressed human hepatitis B virus (HBV) polymerase (pol) in insect cells, using the recombinant baculovirus system. Analysis of immunoaffinity-purified pol indicated that (i) a portion of pol had initiated minus-strand DNA synthesis within infected insect cells; (ii) the pol mRNA appeared to be the template for reverse transcription; (iii) the products were small (100 to 500 nucleotides); (iv) only minus-strand DNA was synthesized; (v) the products were covalently bound to protein; and (vi) the 5' end of the minus-strand DNA mapped to DR1 by primer extension. The purified pol was also active in an in vitro polymerase assay. Analyses suggested that a different fraction of pol was active in the in vitro assays. Incubation of pol with labeled deoxyribonucleotide triphosphates resulted in the labeling of the pol polypeptide in a reaction that appeared to represent in vitro nucleotide priming. In vitro nucleotide priming was confirmed by the appearance of 32P-labeled phosphotyrosine on pol following in vitro reactions with 32P-labeled deoxyribonucleotide triphosphates. The ability to purify significant quantities of HBV pol will facilitate functional and physical analysis of this enzyme as well as the search for novel inhibitors of HBV replication.
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PMID:Nucleotide priming and reverse transcriptase activity of hepatitis B virus polymerase expressed in insect cells. 753 9

The double-stranded DNA genome of hepatitis B virus (HBV) is reverse transcribed from the viral pregenome RNA template by a virally encoded reverse transcriptase enzyme (RT) that possesses both priming and elongation activities. Prior efforts have failed to express an active form of HBV RT outside the nucleocapsid in animal cells or to release it from viral nucleocapsids, thus restricting the characterization of this important enzyme. Here, we have engineered epitope-tagged HBV RT proteins and expressed them in Xenopus oocytes via a synthetic RT mRNA which does not include the viral capsid protein or the known initiation site for viral DNA synthesis, DR1. We demonstrate the production of an immunoprecipitable 96-kDa HBV RT protein and show, using a simple in vitro RT assay, that oocyte lysates containing this protein possess an activity that (i) catalyzes an RNA-dependent deoxynucleotide triphosphate polymerization reaction by using an as-yet-unidentified RNA template and (ii) is sensitive to the RT inhibitors actinomycin D and phosphonoformate. Experiments with the chain terminator ddATP suggest that a significant amount of chain elongation occurs in our in vitro reaction. Electrophoretic analysis reveals a heterogeneous array of RT reaction products with sizes ranging from about 100 bases to far larger than that of the input RT mRNA. These products appear to contain covalently bound protein, consistent with the notion that the RT protein may have primed their synthesis. We conclude that HBV RT activity can be uncoupled from both the nucleocapsid and the replication origin, DR1. Our results raise the possibility that unless HBV employs novel mechanisms to regulate its constitutively active RT, cellular RNAs may be reverse transcribed during HBV infection, with potential implications for the development of HBV-related liver cancer. The use of the oocyte system should facilitate studies of HBV RT, including the development of HBV RT inhibitors for antiviral therapy.
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PMID:Recombinant human hepatitis B virus reverse transcriptase is active in the absence of the nucleocapsid or the viral replication origin, DR1. 768 99

Replication of the hepadnavirus genome occurs by reverse transcription of an RNA pregenome and is mediated by the viral polymerase; the polymerase is also required for packaging of the pregenome through interaction with the RNA packaging signal, epsilon. Previous work suggested that reverse transcription of minus-strand DNA initiates within the sequence element DR1 (direct repeat 1) and that disruption of DR1 activates a cryptic initiation site in a downstream copy of epsilon. However, using active duck hepatitis B virus polymerase expressed in a yeast Ty vector system, we demonstrate that synthesis of minus-strand DNAs with 5' ends at DR1 requires the stem-loop of epsilon, whereas the production of DNAs mapping to epsilon does not require DR1. Mutations at epsilon that remove homology between epsilon and DR1 eliminate reverse transcripts with 5' ends in DR1, and restoring homology at DR1 to a mutant epsilon partially restores DNAs mapping to DR1. Insertions of one nucleotide into the bulge region of the epsilon stem-loop increase the length of minus-strand DNA whose 5' ends map to DR1 by one nucleotide. Thus, very short minus-strand primers are initiated within epsilon, rather than in DR1 as previously supposed; they are then transferred to a four-nucleotide homology in DR1. Transfer was also observed in vivo during replication of duck hepatitis B virus in avian cells; in this case, transfer is from the 5' copy of epsilon to the 3' copy of DR1. This minus-strand transfer reaction is likely to be a general feature of all hepadnaviruses.
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PMID:Hepadnavirus reverse transcription initiates within the stem-loop of the RNA packaging signal and employs a novel strand transfer. 818 92

Human hepatitis B virus (HBV) is a small DNA virus that replicates inside the viral nucleocapsid by reverse transcription of an RNA intermediate, the pregenome. The sequences encompassing the encapsidation signal epsilon and the direct repeat DR1 are present in two copies of this terminally redundant transcript. We have recently shown that HBV minus-strand DNA synthesis involves transfer of a short DNA primer copied from 5'-epsilon to 3'-DR1 (DR1*). Using transfection of HBV genomes with lesions in 3'-epsilon, and 5'-DR1 and its preceding sequence, we tested whether these additional elements contribute to the specificity of the transfer reaction. However, while some mutations affected proper plus-strand DNA formation, 5'-epsilon and DR1* were completely sufficient for correct minus-strand DNA production.
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PMID:Specific hepatitis B virus minus-strand DNA synthesis requires only the 5' encapsidation signal and the 3'-proximal direct repeat DR1. 852 75

We found that livers from woodchucks chronically infected with woodchuck hepatitis virus (WHV) contained covalently closed circular DNA (cccDNA) molecules with deletions and insertions indicative of their formation from linear viral DNA by nonhomologous recombination, as we previously described for the duck hepatitis B virus (W. Yang and J. Summers, J. Virol. 69:4029-4036, 1995). However, evidence for two different types of linear precursors was obtained by analysis of the recombination joints in WHV cccDNA. Type 1 linear precursors possessed the structural properties that correspond to those of in situ-primed linear DNA molecules, which constitute between 7 and 20% of all viral DNA replicative intermediates synthesized in the liver. Type 2 linear precursors are hypothetical species of linear DNAs with a terminal duplication of the cohesive-end region, between DR1 and DR2. This type of linear DNA has not been previously described and was not detected among the DNA species present in nucleocapsids. A fraction of cccDNAs formed from both type 1 and type 2 linear DNAs are predicted to be functional for further DNA synthesis, and some evidence for the formation of two or more generations of cccDNA from linear DNA was observed.
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PMID:Covalently closed circular viral DNA formed from two types of linear DNA in woodchuck hepatitis virus-infected liver. 867 83

The polymerase encoded by human hepatitis B virus, which has reverse transcriptase and RNase H activity, binds to its pregenomic RNA template in a two-step process involving a terminal redundancy. Both first strand and second strand DNA synthesis involve primer translocation and second strand synthesis involves a template jump. Three parts of the genome, including the so-called core promoter, are known to show deletions in strains usually arising after long-standing HBV infection, but also in some patients treated with interferon. A computer-based study of RNA template folding in the core promoter region, accommodating well-known point mutations, has generated a model for the 3' DR1 primer binding site as being part of a superstructure encompassing an already well-established stem-loop. Depending on the identity of nucleotides 1762 and 1764, the DR1 region may assume two alternative secondary structures which stabilize it as a primer binding site to different extents. Remarkably, one of these structures includes a pronounced loop which coincides with at least 12 related deletions seen in HBV DNA from different patients. Thus according to the model, the 5'- and 3'-ends of pregenomic RNA, which share primary sequences but have separate functions, are not structural equivalents. An RNA superstructure near the 3'-end of all HBV transcripts could have far-reaching implications for the modulation of both genome replication and post-transcriptional processing.
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PMID:A revised secondary structure model for the 3'-end of hepatitis B virus pregenomic RNA. 881 Oct 80

Serious adverse effects of immunizations are uncommon. The hepatitis B vaccine has been implicated in a few dozen cases of extraarticular, systemic, or inflammatory joint disorders. We report two cases in which hepatitis A vaccination (Havrix, Smith Kline Beecham) was followed by a connective tissue disorder or a spondylarthropathy in two healthy males aged 50 and 24 years, respectively. Both patients were HLA B27-negative but carried the HLA DR1 and/or DR4 antigen. The outcome was favorable after treatment with a corticosteroid or a nonsteroidal antiinflammatory agent. The pathophysiology of immunization-related rheumatic disorders may involve circulating immune complexes and/or a mechanism similar to that seen in reactive arthritis, i.e., a genetically-determined susceptibility to the bacterial or viral antigens contained in vaccines.
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PMID:Inflammatory joint disease after immunizations. A report of two cases. 980 68

Synthesis of the pre-C and pregenomic RNAs of human hepatitis B virus (HBV) is directed by two overlapping yet separate promoters (X. Yu and J. E. Mertz, J. Virol. 70:8719-8726, 1996). Previously, we reported the identification of a binding site for the nuclear receptor hepatocyte nuclear factor 4 (HNF4) spanning the TATA box-like sequence of the pre-C promoter. This HNF4-binding site consists of an imperfect direct repeat of the consensus half-site sequence 5'-AGGTCA-3' separated by one nucleotide; i.e., it is a DR1 hormone response element (HRE). We show here that other receptors, including chicken ovalbumin upstream promoter transcription factor 1 (COUP-TF1), human testicular receptor 2 (TR2), and peroxisome proliferator-activated receptors (PPARs) as heterodimers with retinoid X receptors (RXRs), can also specifically bind this DR1 HRE. Synthesis of the pre-C and pregenomic RNAs was affected both in transfected hepatoma cells and in a cell-free transcription system by the binding of factors to this DR1 HRE. Interestingly, whereas some members of the hormone receptor superfamily differentially repressed synthesis of the pre-C RNA (e.g., HNF4 and TR2) or activated synthesis of the pregenomic RNA (e.g., PPARgamma-RXRalpha), other members (e.g., COUP-TF1) coordinately repressed synthesis of both the pre-C and pregenomic RNAs. Thus, HBV likely regulates its expression and replication in part via this DR1 HRE. These findings indicate that appropriate ligands to nuclear receptors may be useful in the treatment of HBV infection.
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PMID:Differential regulation of the pre-C and pregenomic promoters of human hepatitis B virus by members of the nuclear receptor superfamily. 937 96

The clinical spectrum and outcome of necrotizing vasculitis were evaluated in a retrospective study in order to assess: (1) the clinical expression and evolution of the disease; (2) the response to several therapeutic approaches based on major events (organ involvement causing disability or death); (3) the immunogenetic background of patients. Sixty-six Greek patients fulfilling the ACR criteria for the diagnosis of vasculitis entered the study. Thirty-seven were diagnosed with Wegener's granulomatosis (WG), 22 with polyarteritis nodosa (PAN) and seven with Churg-Strauss syndrome (CSS). The demographic characteristics of patients with WG and PAN were similar. Cutaneous manifestations, gastrointestinal and peripheral nervous system involvement occurred more often in patients with PAN, whereas pulmonary and upper respiratory tract involvement, renal, ear abnormalities and fever were more frequent in patients with WG. Muscle weakness and asthma were found exclusively in patients with PAN and CSS, respectively, while the presence of classic-antineutrophil cytoplasmic antibodies (c-ANCA) characterized WG patients. Hepatitis B surface antigen (HBsAg) was found in 22% of PAN patients. No significant differences were detected when comparing the PAN and WG groups with respect to the first major event (log-rank P = 0.50) with and without potential confounders (age, gender, therapy or c-ANCA). For WG patients, a statistically significant difference was found on different routes of administration of cyclophosphamide (oral vs pulse) (P = 0.006). Regarding the HLA antigens, an increased frequency of DR1 (26.9% vs 10.3%, P = 0.057) in WG and the absence of DR3 in patients with PAN and CSS were noted. It appears that although the immunogenetic background and the clinical expression of the diseases differ, the response to treatment as well as the evolution and the survival rate of these patients are similar in the two groups.
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PMID:Necrotizing vasculitis in Greece: clinical, immunological and immunogenetic aspects. A study of 66 patients. 997 72

The double-stranded DNA genome of human hepatitis B virus (HBV) and related hepadnaviruses is reverse transcribed from a pregenomic RNA by a viral polymerase (Pol) harboring both priming and RNA- and DNA-dependent elongation activities. Although hepadnavirus replication occurs inside viral nucleocapsids, or cores, biochemical systems for analyzing this reaction are currently limited to unencapsidated Pols expressed in heterologous systems. Here, we describe cis and trans classes of replicative HBV cores, produced in the recombinant baculovirus system via coexpression of HBV core and Pol proteins from either a single RNA (i.e., in cis) or two distinct RNAs (in trans). Upon isolation from insect cells, cis and trans cores contained Pol-linked HBV minus-strand DNA with 5' ends mapping to the authentic elongation origin DR1 and also plus-strand DNA species. Only trans cores, however, were highly active for the de novo priming and reverse transcription of authentic HBV minus strands in in vitro endogenous polymerase assays. This reaction strictly required HBV Pol but not the epsilon stem-loop element, although the presence of one epsilon, or better, two epsilons, enhanced minus-strand synthesis up to 10-fold. Compared to unencapsidated Pol enzymes, encapsidated Pol appeared to be (i) highly processive, able to extend minus-strand DNAs of 400 nucleotides from DR1 in vitro, and (ii) more active for HBV plus-strand synthesis. These observations suggest possible contributions to the replication process from the HBV core protein. These novel core reagents should facilitate the analysis of HBV replication in its natural environment, the interior of the capsid, and also fuel the development of new anti-HBV drug screens.
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PMID:Generation of replication-competent hepatitis B virus nucleocapsids in insect cells. 952 96


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