UMLS:C0019163 - FACTA Search

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

The p21.5 capsid or core protein of hepatitis B virus carries two distinct classes of epitopes. Core (HBc) epitopes are found exclusively on the surface of the 28-nm viral icosahedral capsids or core particles, while HBe epitopes are normally expressed only by subparticulate forms of the core protein. Recent studies have suggested that a "particulate" form of HBe is expressed on the surface of capsid particles assembled from p17, a truncated core protein that lacks the carboxy-terminal protamine-like region of p21.5 and hence the ability to bind and encapsidate RNA. In this report we have used epitope-specific ELISAs in conjunction with capsids assembled from a series of carboxy-terminally truncated core proteins to address the mechanistic basis for particulate HBe. Specifically, we sought to test the idea that particulate HBe expression might be linked to the loss of RNA binding. However, our results strongly suggest that expression of HBe by mutant core particles is a result of their intrinsic instability which increases sharply when RNA binding is lost. We show that core particles assembled from mutant core proteins lacking Cys residues also express HBe, again because of capsid instability. We report mild conditions that can induce the dissociation of the mutant capsids and discuss our findings in terms of the factors that control capsid stability.
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PMID:Stability governs the apparent expression of "particulate" hepatitis B e antigen by mutant hepatitis B virus core particles. 768 82

The authors studied the interrelationship of antibody to hepatitis C virus core protein (anti-HCV core), antibody to C100-3 antigen (anti-C100-3) and serum hepatitis C virus RNA positivity in chronic liver disease patients. Anti-HCVcore was detected with high titers in 95% (69/73) of chronic non-A, non-B hepatitis patients, while anti-C100-3 was found in 60% (44/73). A close relationship was observed between detection of anti-HCVcore and viremia. Anti-HCVcore was also detected with low titers in 24% (10/41) of hepatitis B virus carriers negative for anti-C100-3. Hepatitis C virus RNA was found in 3 of the 10 anti-HCVcore-positive carriers. A significant correlation was observed between the occurrence of high titers of anti-HCVcore and serum hepatitis C virus RNA positivity. In chronic hepatitis C patients treated with interferon-alpha, a sustained reduction of anti-HCVcore was more closely associated with sustained virus clearance than that of anti-C100-3. These results indicate that anti-HCVcore may serve as a reliable marker of hepatitis C virus infection.
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PMID:Antibodies to hepatitis C virus and hepatitis C virus infection. 768 12

Hepatitis B virus (HBV) is the type member of the hepadnaviridae, small enveloped DNA viruses that replicate through reverse transcription of an RNA intermediate, the pregenome. This reaction occurs usually inside the viral nucleocapsid, the assembly of which requires specific interactions between multiple copies of the core protein, the viral replication enzyme (P protein) and the RNA pregenome which also serves as mRNA for both proteins. Deletion studies have established that specific packaging of the RNA is mediated by a short cis-acting sequence, the encapsidation signal epsilon. Using nuclease sensitivity experiments we provide experimental evidence that part of this sequence can adopt a stem-loop structure that is interrupted by a bulge and a single unpaired U residue. The structural consequences of deletions of the unpaired regions and changes in their primary sequences were investigated in vitro, and their influence on the function of the epsilon-signal was tested in animal cells by monitoring encapsidation of RNAs carrying the mutant epsilon-sequences in front of a 2.7 kb foreign RNA fragment, or within the context of a complete HBV genome. The data indicate that the entire stem-loop structure containing the bulge and the loop is critical for encapsidation competence. While gross alterations in the primary sequences of the unpaired regions interfere with encapsidation, data obtained with additional mutants suggest that the bulge region is more tolerant to sequence changes than the loop.
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PMID:The encapsidation signal on the hepatitis B virus RNA pregenome forms a stem-loop structure that is critical for its function. 769 Apr 71

For investigation of proteins possessing assigned immunological properties, plasmids pPS31-42, pPS1-5, pPS2-17, and pPS1P-30 were constructed encoding the hepatitis B core protein (HBcAg) with N-terminally inserted immunodominant epitopes of preS regions (amino acids 31-36 or 94-105 of preS1, or 133-143 of preS2). Analysis of the hybrid proteins with the use of ELISA and immunoelectron microscopy showed that the insertions did not prevent specific aggregation of the protein molecules, the inserted sequences being exposed on the surface of the particles obtained, and both HBcAg and the corresponding preS determinants were antigenically active.
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PMID:[Introduction of heterologous epitopes at the N-terminal part of the hepatitis B core protein]. 772 60

Hepatitis B virus core protein (antigen) is an important serologic marker of hepatitis B virus infection. This protein is found in the cytoplasm or the nuclei, or both, of infected hepatocytes. A nuclear localization signal has previously been identified in the core protein sequence. This signal overlaps three repeated SPRRR motifs. In this report, we demonstrate that substitution of all of the serine residues in these three SPRRR motifs with alanine can prevent almost entirely the phosphorylation of the core protein in Huh-7 hepatoma cells, enhance nuclear localization of the core protein in both Huh-7 and nonhepatic cells, and abolish cell cycle regulation of nuclear localization of the core protein. Since the three core protein mutants which retained only one serine residue of each of the three SPRRR motifs could be phosphorylated to similar degrees, these three serine residues likely could serve as the acceptor sites for phosphorylation with equal efficiency. These results, together with the observation that the three SPRRR motifs overlap the nuclear localization signal of the core protein, raise the possibility that nuclear localization of the core protein is negatively regulated by phosphorylation of the serine residues in the SPRRR motifs.
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PMID:Phosphorylation and nuclear localization of the hepatitis B virus core protein: significance of serine in the three repeated SPRRR motifs. 781 79

We previously demonstrated that the core protein of hepatitis C virus (HCV) can suppress gene expression and replication of hepatitis B virus (HBV) in a human hepatoma cell line (HuH-7). In this study, we have characterized the phosphorylation property of HCV core protein and examined the effect of phosphorylation on its suppressive activity of HBV. Our results indicated that both the full-length HCV core protein (22 kDa) and its processed or degraded forms (14 to 18 kDa) were phosphorylated in insect cells. As demonstrated by using the glutathione S-transferase fusion protein expression system and in vitro transcription and translation system, the phosphorylation of HCV core protein was carried out by protein kinase A (PKA) and protein kinase C (PKC) in vitro. In both kinase reactions, it was determined that the phosphorylated amino acid was a serine residue. The potential phosphorylated sites in core protein were identified as residues Ser-53 and Ser-116 for PKA and Ser-53 and Ser-99 for PKC. Comparison of the phosphorylation intensities of the wild type and Ser mutants suggested that Ser-99 and Ser-116 were the major phosphorylation sites for PKC and PKA, respectively. The phosphorylation of Ser-99 and Ser-116, but not Ser-53, in HCV core protein was essential for the suppressive activity of HCV core protein on HBV gene expression and replication in HuH-7 cells. Mutation of the former two serine residues to alanine or aspartate residues led to a drastic loss of the inhibitory effects of HCV core protein on HBV gene expression (both transcription and antigen production) and pregenomic RNA encapsidation, as well as the release of HBV virus particles. In contrast, the Ser-53 mutant conferred the same level of suppressive activity as the wild type did. This property is in accordance with the observation that Ser-99 and Ser-116 are the predominant phosphorylation sites in the HCV core construct. All serine mutants (including those with mutations in PKA, PKC, and both kinase recognition sites) of HCV core protein retained the ability to translocate into the nucleus. Furthermore, wild-type HCV core protein diminished its suppressive activity when cells were treated with PKA or PKC inhibitor. In conclusion, HCV core protein is a phospho-protein and in HuH-7 cells, its trans suppression of HBV gene expression and replication is positively regulated by PKA and PKC. The role of phosphorylation in the control of trans-suppressive activity cannot be reproduced by introducing an acidic residue.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Modulation of the trans-suppression activity of hepatitis C virus core protein by phosphorylation. 781 94

Hepadnavirus replication requires the concerted action of the polymerase and core proteins to ensure packaging of the RNA pregenome and DNA maturation. The arginine-rich C terminus of the core protein plays an essential role in both of these steps while being dispensable for nucleocapsid formation. In an attempt to identify other functional domains of the core protein, we performed a series of trans-complementation experiments analyzing the ability of duck and human hepatitis B virus (DHBV and HBV) core protein subunits to support the replication of a core-defective DHBV genome. Plasmids expressing the N-terminal amino acids 1 to 67 or the remaining C-terminal portion, amino acids 67 to 262, of the DHBV core protein were cotransfected into LMH cells along with a replication-deficient construct coding for the DHBV pregenome and polymerase. Neither the N nor the C terminus alone yielded replication-competent core particles. However, cotransfection of plasmids that separately expressed both regions restored a normal replication pattern. Furthermore, the DHBV C terminus but not the N terminus could be replaced by the corresponding domain of the HBV core protein in this assay. Finally, coexpression of the complete HBV core protein and the N terminus from DHBV resulted in DHBV replication, while the HBV core protein alone was not functional. Taken together, these findings suggest a modular organization of the DHBV core protein in which the C terminus is functionally conserved among different hepadnaviruses.
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PMID:Identification of two separable modules in the duck hepatitis B virus core protein. 788 28

Phosphorylation of core particles derived either from hepatitis B viruses or from livers of hepatitis B-infected individuals has been long recognized, but the nature and function of the phosphorylating enzyme remained unknown. By immunoblotting with a monoclonal antibody, we have now detected protein kinase C within the liver-derived core particles. To study the significance of the encapsidated protein kinase C for the viral life cycle, we established an in vitro assembly system consisting of Escherichia coli-expressed core protein, protein kinase C, and in vitro-synthesized hepatitis B virus RNA. Phosphorylation of the core protein led to a reduced RNA encapsidation capacity of the core particles. Furthermore, RNA and protein kinase C competed for their target sequence, which is the carboxy-terminal arginine-rich domain of the core protein. This finding implies that phosphorylation of the nucleic acid binding site in the core protein occurs within the particles after encapsidation of protein kinase C, pregenomic RNA, and viral polymerase at a later step during viral genome maturation.
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PMID:Effect of core protein phosphorylation by protein kinase C on encapsidation of RNA within core particles of hepatitis B virus. 796 89

We have generated and functionally characterized dominant negative core protein variants of the hepadnaviruses to determine their effects on "wild type" viral replication. Plasmids expressing these constructs were introduced into hepatoma cell lines by transient transfection and effects on wild type woodchuck hepatitis virus (WHV) and hepatitis B virus (HBV) replication were evaluated by Southern blot analysis of purified viral core particles. WHV and HBV constructs expressing a truncated core protein fused in frame with the C-terminus of the small surface protein were found to inhibit viral replication by 90-95% due to disruption of the viral nucleocapsid assembly process and preventing encapsidation of pregenomic RNA. The antiviral effects were found to be specific for the targeted virus. These results demonstrate that mutants of hepadnaviral core protein may represent a novel class of antiviral agents.
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PMID:Characterization of hepatitis B virus core mutants that inhibit viral replication. 797 6

Hepatitis B virus (HBV) nucleoprotein complexes were isolated from nuclei of the human hepatoblastoma cell line HepG2.2.15. Under conditions of physiological ionic strength, the complexes sedimented at a rate corresponding to about 82 S. They contained viral DNA, histone, and nonhistone proteins. For DNA a circular, covalently closed structure was shown both by CsCl gradient centrifugation and electron microscopy. Spread preparations revealed the typical "beads-on-a-string" appearance of nucleosomally organized DNA. The average number of nucleosomes was 18, resulting in a biochemical repeat unit of HBV chromatin of approximately 180 base pairs of DNA. This value was confirmed by experiments analyzing the structure of the HBV chromatin by the use of micrococcal nuclease. Electron microscopy demonstrated that exposure to high ionic strength conditions resulted in removal of nucleosomes from the complexes, but also revealed proteinaceous structures remaining bound to viral DNA molecules. The nature of these residual proteins is discussed. Since native nucleoprotein complexes could be precipitated with HBV-core antibodies, core protein appeared to be one of the nonhistone proteins.
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PMID:Hepatitis B virus genome is organized into nucleosomes in the nucleus of the infected cell. 797 68

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