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)

Hepatitis B viral X protein (HBx), a 17-kDa polypeptide, has been demonstrated as a trans-acting factor. In this study, we report that the HBx was able to form a dimer, a feature very similar to many well known trans-acting factors. In vitro synthesized HBx, after immunoprecipitation and analysis by SDS-PAGE, appeared as one prominent 17-kDa band (monomer) and a faint 34-kDa band (dimer). The amount of dimer increased if the sample of immunoprecipitated HBx was not treated with 2-mecaptoethanol, indicating the dimer was held together by the disulfide linkage. Dimerization of a truncated HBx established that the four cysteine residues close to the N-terminus are sufficient for the dimerization process.
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PMID:Dimerization of hepatitis B viral X protein synthesized in a cell-free system. 280 88

Transfection of human hepatoma cell lines with cloned HBV DNA resulted in the secretion of large amounts of hepatitis B surface antigen (HBsAg) and core-related antigens (HBc/HBeAg) if well-differentiated cell lines were employed. Synthesis of both viral antigens was the highest in cell line HuH-7 and continued for approximately 25 days. Particles resembling hepatitis B virions (Dane particles) by morphology, density and by the presence of the preS1 surface antigen were released from the transfected HuH-7 cells into the culture medium. These particles produced in vitro were also indistinguishable from the naturally occurring hepatitis B virions in containing the virus-associated DNA polymerase and mature HBV genomes. Restriction analysis of these DNA molecules was compatible with the nucleotide sequence of the transfecting HBV DNA sequence. Viral surface antigens and core proteins present in the culture medium were fractionated and characterized by immunoprecipitation and SDS--PAGE after labeling with [35S]methionine. Antisera specific for X-gene products identified in cell extracts two hitherto unknown HBV gene products. This system thus provides a new approach to open questions regarding HBV-related gene function and HBV replication.
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PMID:Production of hepatitis B virus in vitro by transient expression of cloned HBV DNA in a hepatoma cell line. 303 5

A protein of 154 amino acids, predicted to be encoded by the X-open reading frame of the hepatitis B virus (HBV) genome, was synthesized in an in vitro translation system from SP6 transcripts containing the X-coding sequence. As characterized by SDS-PAGE and immunoprecipitation this X-protein possesses the expected molecular weight of 17 kDa and reacts specifically with rabbit antisera directed against a fusion protein from Escherichia coli that contained 145 of the 154 amino acids from the X-sequence. The X-protein, radiolabeled with [35S]methionine, provided a sensitive and specific antigen to screen for anti-X antibodies in sera from HBV patients. Positive signals were obtained preferentially in subjects suffering from HBV-induced liver cirrhosis or primary hepatocellular carcinoma (PHC), i.e., individuals that had been exposed for an extended time period to HBV gene products. Carefully controlled experiments failed to reveal the presence of X-related proteins specific to liver specimens from HBV patients.
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PMID:Synthesis of the X-protein of hepatitis B virus in vitro and detection of anti-X antibodies in human sera. 303 93

A number of antisera, elicited against different segments of the duck hepatitis B virus (DHBV) P-gene translation product, were used to immunoprecipitate the protein that is covalently bound to the 5'-end of the DHBV DNA minus strand. For monitoring purposes, a small DNA minus-strand fragment, carrying this protein, was radioactively labeled. All of the P-specific antisera specifically immunoprecipitated this DNA fragment demonstrating that the protein species attached to the immunoprecipitated DNA fragment were products of the DHBV P-gene. The electrophoretic behavior, in SDS gels, of the DNA minus-strand fragment-protein complex indicated that it was present mostly in the form of aggregates. However, a small fraction consisted of DNA minus-strand fragments carrying P-gene proteins, encoded solely within the 5'-region of the P-gene. This indicated that different P-gene proteins, presumably covalently bound at a common region and subsequently processed, were bound to the 5'-end of the DHBV DNA minus strand. The DHBV P-gene presumably codes for the virus-associated reverse transcriptase and DNA polymerase activities. Using the P-gene-specific antisera, it was not possible to detect putative P-gene-coded polymerase proteins in a free form, i.e., not bound to viral DNA. This may be due to insufficient sensitivity or to the polymerase protein(s) being heterogeneous and/or aggregated. In addition, it is possible that the genome-bound protein itself may have polymerase activity.
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PMID:The duck hepatitis B virus P-gene codes for protein strongly associated with the 5'-end of the viral DNA minus strand. 317 42

The hepatitis B virus core antigen, including the precore sequence (HBcAg-p25), was expressed at very high levels in bacteria. Three expression vectors were constructed in which the synthesis of HBcAg-p25 was controlled by the tac promoter, and the number of nucleotides between the bacterial ribosome binding site and the precore initiation codon was varied in order to maximize HBcAg-p25 synthesis. The relative amount of HBcAg-p25 polypeptide expressed by the different vectors was estimated by SDS-polyacrylamide gel electrophoresis and immunoblot. HBcAg-p25 was associated with an insoluble fraction of bacterial extracts and required ionic detergents for solubilization. Comparison by ELISA of the immunoreactivity of HBcAg with and without the precore sequence suggested that human anti-HBcAg IgG preferentially recognizes HBcAg lacking the precore sequence.
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PMID:Expression and characterization of hepatitis B virus precore-core antigen in E. coli. 333 4

Antibody responses to the three envelope (env) proteins of hepatitis B viral particles (HB-VP): the S-encoded P25 polypeptide; the pre-S(2)- and S-encoded GP33/GP36 polypeptide; and the large entire env gene (pre-S + S) product, P39/GP42, were investigated using a Western immunoblotting assay (WIBA). HB-VP proteins separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and transferred to nitrocellulose by electroblotting were used as antigenic probes to determine the polypeptide specificity of these antibodies present in immune individuals. Antisera from human subjects either after a natural HBV infection or after active immunization with the hepatitis B vaccine licensed in France were selected on the basis of a positive serological RIA test for antibodies against hepatitis B surface antigen (HBsAg). In all studied cases, the lack of reactivity of the anti-HBs/P25 antibodies in blots from reduced SDS gels confirms that the S-related-determinants have a conformation sensitive to denaturing agents. In contrast, the anti-pre-S(2)/GP33-GP36 antibodies and the anti-pre-S(1)/P39-GP42 antibodies can be easily detected in WIBA, providing these antibodies recognize the disulfide-bond independent pre-S determinants on the denatured env proteins. However, antisera raised in guinea-pigs against individual HBsAg polypeptides contain antibodies reacting with denatured S-proteins, suggesting that the sequential S-determinants are lost during HBV morphogenesis. Antibody responses in HBV convalescing patients or vaccinated healthy donors are shown to be characterized by: an early transient polypeptide specific-antibody response to pre-S(2)-sequences (detected in WIBA); a persistent antibody response to conformation-dependent S-determinants (detected in RIA). This implies that effective long-term protection against HBV infection requires antibodies directed to native env proteins.
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PMID:Immunochemical structure of the hepatitis B surface antigen vaccine--II. Analysis of antibody responses in human sera against the envelope proteins. 374 12

We have cloned the X gene (HBx) and the HBc antigen (HBc Ag) gene of human hepatitis B virus (HBV) in Escherichia coli as fusion products with beta-galactosidase. Both HBV genes are expressed in E. coli strain CSR 603. Expression is detected by u.v. irradiation of the bacteria, metabolic labelling and electrophoresis of the labelled extracts on SDS-polyacrylamide gels. The HBc Ag protein produced in bacteria can be recognised by anti-HBc sera and peptides derived from the protein are also recognised by anti-HBe sera. The HBx protein is recognised by some, but not all, sera which are anti-HBe positive. HBx Ag is also recognised by a woodchuck antibody similar to anti-HBe (anti-WHe). These results constitute the first proof that the open reading frame X is a true viral gene and is expressed during HBV (and WHV) infection and that an HBx/anti-HBx system, which may have important biological implications, can exist in parallel with the classic HBe/anti-HBe system.
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PMID:The HBV HBX gene expressed in E. coli is recognised by sera from hepatitis patients. 389 26

The construction of an expression plasmid of hepatitis B virus surface antigen (HBsAg) gene from the cloned hepatitis B virus (HBV) genome subtype adr is reported. The expression products of this plasmid in E. coli were detected by means of radioimmunoassay in competitive suppression and polyacrylamide-SDS gel electrophoresis. The presence of a fusion protein containing HBsAg was confirmed.
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PMID:Expression of surface antigen gene of human hepatitis B virus serotype adr in Escherichia coli. 389 33

Circulating immune complexes were characterized from 25 sera obtained from five patients with polyarteritis nodosa and three with cutaneous venulitis associated with hepatitis B virus infection. Complexes were isolated by polyethylene glycol and conglutinin-anticonglutinin precipitation methods and were analyzed for HBsAg and anti-HBsAg. Low pH was used to dissociate the complexes, and components were separated into antigen and antibody fractions by using immobilized protein A. In this study, three observations were significant: 1) complexes were frequent and quantitatively more in cutaneous venulitis than in polyarteritis; 2) the levels of HBsAg in the antigen fractions of polyarteritis were greater and correlated with the clinical improvement of the disease; the serum levels of HbsAg remained the same throughout the course of the disease; and 3) complexes from polyarteritis were not completely dissociable at pH 2.6 compared with those from patients with cutaneous venulitis and chronic active hepatitis. The antigen fractions electrophoresed in polyacrylamide gel with SDS demonstrated 6 to 10 protein bands with m.w. ranging between 17,000 and 120,000 daltons. To precisely define the polypeptide antigen moiety involved in the immune complex formation, a transfer blotting technique was used employing human anti-HBsAg globulin as probe. Polypeptides with m.w. 97,000, 49,000, and 23,000 were found to form complexes in both groups of patients.
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PMID:Identification of HBsAg determinants in immune complexes from hepatitis B virus-associated vasculitis. 619 85

A polypeptide of 21 500 mol. wt., structurally associated with hepatitis B virus core particles, was shown to have two kinds of HBeAg antigenicity (HBeAg/1 and HBeAg/2). This was revealed by transferring a single core peptide from polyacrylamide gels to nitrocellulose sheets (Western blotting), which reacted with anti-HBeAg/1 and anti-HBeAg/2. Selective discrimination of the two HBe antigens was achieved by radioimmunoassay (RIA). When highly purified core particles were incubated at 37 degrees C in a 0.1% SDS-0.1% 2-mercaptoethanol solution, only HBeAg/1 was released after 5 min incubation and the release of HBeAg/2 occurred only after prolonging incubation for 30 min. The course of degradation was also detected by CsCl density gradient centrifugation. These results indicate that HBeAg/1 is less closely associated with core particles than is HBeAg/2. Electron microscopy showed that the core particles from which HBeAg/1 was removed were more labile than the original preparation when incubated at 56 degrees C in aqueous solution, or at 37 degrees C in Sarkosyl solutions; when placed in 1 M-NaCl or -CsCl solution, the particles swelled to a larger diameter than untreated cores.
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PMID:Immunological and morphological properties of HBeAg subtypes (HBeAg/1 and HBeAg/2) in hepatitis B virus core particles. 619 54

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