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)

In human patients infected with hepatitis B virus (HBV) seroconversion from HBe to anti-HBe often signals virus elimination. Occasionally, a second viremic phase is observed which may be due to superinfection with a variant or reactivation of a latent virus. To differentiate between these two possibilities we investigated the nucleotide sequences of virus populations from sera of a chronically infected patient who had two distinct viremic phases, one e-antigen positive and one anti-HBe antibody positive. By direct sequencing of amplified HBV C- and pre-S gene sequences we found that the viruses in the two populations differed by only two point mutations, one of which prevents expression of precore derived e-antigen. In the nonviremic phase viral DNA and antigen were found in the liver but nucleocapsid protein expression appeared drastically downregulated. These data demonstrate that HBV can enter a latent phase with low expression of core protein and selection for HBV variants which cannot synthesize e-antigen. This suggests that e-antigen expression can be a critical target for virus elimination and that loss of its expression can prolong chronicity and provoke latency of HBV infection.
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PMID:Latency and reactivation of a precore mutant hepatitis B virus in a chronically infected patient. 229 29

Based on the diversity of nucleotide sequences of cloned hepatitis B virus DNA genomes, we have predicted possible replication of genetic variants of human hepatitis B virus. This prediction is exemplified by studies of a chronic carrier of HBsAg/adw2, who lacked anti-HBc but carried exceedingly high levels of hepatitis B virus DNA in serum. Molecular characterization of a number of clones revealed a restriction map that deviated significantly from the typical pattern of the adw2 subtype, especially around the EcoRI site commonly used as a reference point. Mutations appearing consistently in the precore and core regions included (a) mutation in the precore region resulting in a termination codon after the initiation codon, (b) mutation of the core initiation codon and (c) an inframe insert of 36 nucleotides in the precore region with a new initiation site for the core protein. The 36-nucleotide insertion resulted in a new core protein with 12 extra amino acids at its amino-terminal end. A few scattered point mutations were clustered in the amino-terminal half of the core gene. Although the core protein of this hepatitis B virus variant carried immunologically detectable HBcAg, the absence of a humoral immune response to HBcAg could have been caused by previous infection with human immunodeficiency virus. This naturally occurring human hepatitis B virus variant replicated efficiently without expressing the precore region, confirming previous observations made of the artificial mutants of duck hepatitis B virus.
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PMID:Molecular characterization of a new variant of hepatitis B virus in a persistently infected homosexual man. 230 6

Mutational analyses and complementation tests were used to analyze the strategy of packaging and of replication of human hepatitis B virus (HBV). By creating new restriction enzyme sites and by varying the genome length of HBV mutants, we identified that the mutated genomes could be encapsidated through trans-complementation of the polymerase and/or core protein. This study demonstrates that the polymerase of HBV, similar to that of duck hepatitis B virus (DHBV), is synthesized de novo instead of through a core-polymerase fusion protein. The results also indicate that both the polymerase and the core protein can be supplied in trans during viral packaging, and that the complementation is not due to recombination between the cotransfected plasmids. Furthermore, HBV genome deleted down to 2.4 kb is still able to be encapsidated, as measured by the endogenous polymerase reaction. Taken together, these results provide a basis for using HBV as a vector to deliver foreign genes into hepatocytes and for defining the location of the packaging signal on the HBV genome.
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PMID:Encapsidation of truncated human hepatitis B virus genomes through trans-complementation of the core protein and polymerase. 234 59

In the human hepatitis B virus (HBV) genome, the 5' end of the polymerase coding sequence overlaps with the 3' end of the core protein coding sequence. Recent results obtained from genetic studies have suggested that translation of HBV polymerase initiates from the first ATG codon of the polymerase reading frame and is not a result of frameshift translation from the core protein reading frame, as in the case of retroviruses. By using in vitro-synthesized SP6 RNA transcripts, we now demonstrate that HBV core protein-specific mRNA can direct the synthesis of polymerase from the internal polymerase ATG codon in rabbit reticulocyte lysates and Xenopus oocytes. A related message with an additional 60 nucleotides at the 5' end (pre-core protein mRNA) was not as efficient as the core protein mRNA for translation of polymerase. Furthermore, translation of polymerase from the core protein mRNA was not inhibited by the cap analog m7GpppG. This result, together with the results described above, indicates that translation of HBV polymerase occurs in a novel, cap-independent manner.
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PMID:Preferred translation of human hepatitis B virus polymerase from core protein- but not from precore protein-specific transcript. 238 23

Hepatitis B virus core antigen gene expresses two cocarboxy-terminal proteins, termed precore and core proteins. Both precore and core proteins can form nucleocapsid-like particles. In order to understand the mechanism that leads to the formation of the nucleocapsid, we have expressed precore and core protein sequences in COS cells, a monkey kidney cell line, and compared the properties of these two particles. Our results show that core protein can form particles with various densities and they are present mostly in the cytosol. Precore protein, on the other hand, forms particles with one predominant density, and a majority of these particles are present in the lumen of the endoplasmic reticulum (ER). Furthermore, our results show that, when coexpressed in the same cells, core protein and the ER-associated surface antigens (envelope protein) show colocalization, indicating interaction between these two viral structural proteins.
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PMID:Comparative studies of hepatitis B virus precore and core particles. 240 5

The sequences of the core proteins from several serotypes of human hepatitis B virus and related mammalian and avian hepadnaviruses are aligned with the vp3 capsid protein of mengo virus, a picornavirus. The homology indicates an eight-stranded antiparallel beta-barrel fold for the hepatitis protein, as observed in the tertiary structure of the picornavirus protein. The locations of known antigenic sites and other modifications are consistent with this structure for the core protein. The predicted folding suggests additional exposed antigenic sites and supports an evolutionary relationship between this family of enveloped DNA viruses and enveloped and non-enveloped RNA viruses.
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PMID:A model for the hepatitis B virus core protein: prediction of antigenic sites and relationship to RNA virus capsid proteins. 245 12

Highly purified hepatitis B virus core particles were obtained in large amounts from the cytoplasm of infected human liver cells. This DNA polymerase-negative core preparation had only hepatitis B core antigen-specific antigenicity and showed a surprising stability. Two forms of a single protein of 22,000 molecular weight, P22, were resolved electrophoretically; the slower moving species, P22a, appeared to be a reduced form of the protein, and the faster moving species, P22b, could have represented a conformational isomer containing an intramolecular disulfide bond(s). The immunological properties and DNA-binding activity of the reduced form, P22a, were examined following separation by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and by transfer onto nitrocellulose membranes (Western blotting). We found that the hepatitis B virus C gene protein shared the antigenic site responsible for both hepatitis B core and e antigen reactivity. We also demonstrated that the core protein(s) bound specifically the genomic hepatitis B virus DNA in comparison with a plasmid DNA (pBR322). This last observation was further substantiated by a radioimmunological method. P22a was also found to be phosphorylated in vitro by the endogenous protein kinase activity, copurified with the hepatitis B core antigen particles. These findings suggest that P22 is a multifunctional protein which is incorporated into core particles within the cytoplasm of the host cell before DNA encapsidation. A critical role of this protein in hepatitis B virus assembly is suggested.
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PMID:HBc and HBe antigenicity and DNA-binding activity of major core protein P22 in hepatitis B virus core particles isolated from the cytoplasm of human liver cells. 257 75

The hepatitis B virus (HBV) C gene directs the synthesis of two major gene products: HBV core antigen (HBcAg[p21c]), which forms the nucleocapsid, and HBV e antigen (HBeAg [p17e]), a secreted antigen that is produced by several processing events during its maturation. These proteins contain an amino acid sequence similar to the active-site residues of aspartic acid and retroviral proteases. On the basis of this sequence similarity, which is highly conserved among mammalian hepadnaviruses, a model has been put forward according to which processing to HBeAg is due to self-cleavage of p21c involving the proteaselike sequence. Using site-directed mutagenesis in conjunction with transient expression of HBV proteins in the human hepatoma cell line HepG2, we tested this hypothesis. Our results with HBV mutants in which one or two of the conserved amino acids have been replaced by others suggest strongly that processing to HBeAg does not depend on the presence of an intact proteaselike sequence in the core protein. Attempts to detect an influence of this sequence on the processing of HBV P gene products into enzymatically active viral polymerase also gave no conclusive evidence for the existence of an HBV protease. Mutations replacing the putatively essential aspartic acid showed little effect on polymerase activity. Additional substitution of the likewise conserved threonine residue by alanine, in contrast, almost abolished the activity of the polymerase. We conclude that an HBV protease, if it exists, is functionally different from aspartic acid and retroviral proteases.
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PMID:Proteaselike sequence in hepatitis B virus core antigen is not required for e antigen generation and may not be part of an aspartic acid-type protease. 265 1

Human hepatitis B virus (HBV) causes acute and chronic liver disease, which can result in tumor formation. An as yet unexplained phenomenon is that virus elimination usually correlates with the development of antibodies directed against the HBeAg, a secretory HBV core gene product which can be detected in the serum of infected patients. Expression of HBeAg in a human hepatoma cell line by using recombinant vaccinia viruses revealed that the HBeAg is not only secreted from HBeAg-producing cells but also incorporated into the outer cell membrane. No membrane-expressed core gene product could be detected when the cytoplasmic core protein (HBcAg) was expressed. Immune sera from patients who developed anti-HBe antibodies efficiently recognized the membrane-bound HBeAg, suggesting that surface-expressed HBeAg can serve as a target for an antibody-mediated elimination of HBV-infected cells.
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PMID:The secretory core protein of human hepatitis B virus is expressed on the cell surface. 268 56

In this report, we present biochemical and mutational analyses of the duck hepatitis B virus core protein (DHBcAg). The data show that duck hepatitis B virus core particles consist of at least four different proteins with sizes between 32 and 34 kilodaltons, all of which react with DHBcAg-specific antiserum. Most of the heterogeneity was found to be due to extensive phosphorylation of the DHBcAg C terminus. Bacterially synthesized DHBcAg was not phosphorylated, and mutations within the viral P gene did not influence phosphorylation, suggesting that the kinase activity is not encoded by the viral C or P gene. Removal of the last 12 C-terminal DHBcAg amino acids, which are at least in part located on the core particle surface, had only a minor effect on DHBcAg phosphorylation and did not interfere with packaging of the capsids into viral envelopes or with genome replication. However, an attempt to infect ducklings with this mutant failed. Removal of the last 36 C-terminal DHBcAg amino acids abolished core protein heterogeneity but did not prevent particle formation. Interestingly, these particles were defective in genome replication, although they could still package viral pregenomic RNA.
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PMID:The duck hepatitis B virus core protein contains a highly phosphorylated C terminus that is essential for replication but not for RNA packaging. 272 19


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