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
Query: UMLS:C0019163 (
hepatitis B
)
38,309
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The sequence of the preS1 region of the
hepatitis B
virus (HBV) envelope (env) proteins contains a dominant binding site for hepatocytes between residues preS21 and preS47. Purified HBV particles (subtype ad) were used as the immunogen to produce specific monoclonal antibodies (McAbs) against three antigenic regions (S, preS2 and preS1) of the HBV env protein. One McAb, F35.25, was found to be specific for the region 32-53 of the preS1 sequence of HBV, which largely overlapped the hepatocyte receptor binding site. The preS1-specific McAb F35.25 reacted with both HBV subtypes, ad and ay, in radioimmunoassays (RIA) and with the large surface proteins,
P39
and GP42, as well as with tryptic fragments preS(1-99/103) and preS(1-113) in Western blotting experiments. This McAb F35.25 preferentially recognized, however, the homologous (ad) preS1 sequence in RIA. The ad/ay amino acid substitution within the hepatocyte receptor binding site at position 35 (Gly-Arg) may explain the relative subtype-specificity of F35.25. Finally, the F35.25 epitope was detected in all HBV particles purified from HBeAg-positive human sera, confirming that this preS1 region 32-53 is exposed at the surface of complete virions. Thus, we developed a RIA system allowing us to assess the infectivity of HBV particles by the detection of preS1 sequences associated with the viral hepatocyte receptor. Moreover, it is expected that F35.25 may be a virus-neutralizing antibody by blockage of the attachment of HBV to liver cells.
...
PMID:A monoclonal antibody specific for the hepatocyte receptor binding site on hepatitis B virus. 247 66
Large
hepatitis B
surface antigen polypeptides with apparent molecular sizes of 39,000 and 43,000 daltons (
P39
and P43) were liberated from a purified preparation of Dane particles of subtype adr. They were tested for reactivity with monoclonal antibodies raised against three synthetic oligopeptides representing fundamental sequences of the pre-S region in deoxyribonucleic acid of
hepatitis B
virus (subtype adr), as well as with monoclonal antibody against the major surface antigen polypeptide (P22) coded for by the S gene. Both
P39
and its glycosylated form P43 bound to all four monoclonal antibodies, thereby indicating that they were coded for by the sequence of 1200 nucleotides, from the second ATG codon in the pre-S region to the stop codon of the S gene. Both
P39
and P43 bound to polymerized human and chimpanzee albumins, but not to polymerized albumin from species without susceptibility to
hepatitis B
virus. Due to their presence in Dane particles and the expression of a polyalbumin receptor, the immune responses against
P39
and P43 may have significance in infection with
hepatitis B
virus and its immunoprophylaxis.
...
PMID:Large hepatitis B surface antigen polypeptides of Dane particles with the receptor for polymerized human serum albumin. 300 98
There are four polypeptides coded for by the region Pre-S and gene S on DNA of
hepatitis B
virus that carry the receptor for polymerized human serum albumin (poly-HSA), i.e., P31 and
P39
, as well as their glycosylated counterparts P35 and P43. With the use of monoclonal antibodies directed to Pre-S(1) sequence and Pre-S(2) sequence (bearing the receptor for poly-HSA), the content of these polypeptides, as well as their expression on the surface, was determined for
hepatitis B
particles of various categories.
P39
and P43, carrying both Pre-S(1) and Pre-S(2) sequences, were contained abundantly in Dane and tubular particles, and to a much lesser extent in small spherical particles, all of which were purified from plasma containing
hepatitis B
e antigen (HBeAg). P31 and P35, carrying Pre-S(2) but not Pre-S(1) sequence, were contained comparably in these three categories of
hepatitis B
particles. In remarkable contrast, small spherical particles derived from plasma containing antibody to HBeAg were very low in the content of any Pre-S polypeptides. P31 and
P39
showed higher activities for poly-HSA receptor than their glycosylated versions. When Dane particles were digested with trypsin, the poly-HSA receptor was deprived in parallel with the loss of antigenicity for Pre-S(2) sequence. The antigenicity for Pre-S(1) sequence was much less affected, and that for the product of gene S was virtually unchanged by the digestion.
...
PMID:Polypeptides coded for by the region pre-S and gene S of hepatitis B virus DNA with the receptor for polymerized human serum albumin: expression on hepatitis B particles produced in the HBeAg or anti-HBe phase of hepatitis B virus infection. 300 21
The presence of the two "large" surface proteins of
hepatitis B
virus (HBV),
P39
and GP42 of pre-S1-
hepatitis B
surface antigen, was assayed in the serum of an experimentally infected chimpanzee by using antibodies to a pre-S1-specific fusion protein synthesized in Escherichia coli. The immune response to pre-S1-
hepatitis B
surface antigen was monitored by using the pre-S1 fusion protein as an antigen. pre-S1 proteins were detected in the serum early in the course of infection and prevailed as long as
hepatitis B
surface antigen did, together with
hepatitis B
e antigen and viral DNA. Thus, the pre-S1 antigen can be considered a novel diagnostic marker for acute HBV infection. Antibodies to pre-S1, both immunoglobulin M and G classes, were also detected early in infection, shortly after the appearance of the pre-S1 antigen, suggesting its strong immunogenicity in vivo. The anti-pre-S1 antibodies therefore also represent an early serological marker for acute HBV infection and, owing to their early appearance and persistence, may play a role in the neutralization of the virus.
...
PMID:Pre-S1 antigens and antibodies early in the course of acute hepatitis B virus infection. 370 22
Hepatitis delta virus (HDV)-associated particles were purified from the serum of an experimentally infected chimpanzee by size chromatography and by density centrifugation. Hepatitis delta antigen (HDAg) was detected after mild detergent treatment at a column elution volume corresponding to 36-nm particles and banded at a density of 1.25 g/ml. The serum had an estimated titer of 10(9) to 10(10) HDV-associated particles and had only a 10-fold excess of
hepatitis B
surface antigen (HBsAg) not associated with HDAg. Therefore, HDV appears to be much more efficiently packed and secreted than is its helper virus,
hepatitis B
virus (HBV), which is usually accompanied by a 1,000-fold excess of HBsAg. The protein compositions of the HDAg-containing particles were analyzed by immunoblotting with HDAg-, HBsAg-, and
hepatitis B
core antigen-specific antisera and monoclonal antibodies to HBV surface gene products. The HBsAg envelope of HDAg contained approximately 95% P24/GP27s, 5% GP33/36s, and 1%
P39
/GP42s proteins. This protein composition was more similar to that of the 22-nm particles of HBsAg than to that of complete HBV. The significant amount of GP33/36s suggests that the HBsAg component of the HDV-associated particle carries the albumin receptor. Two proteins of 27 and 29 kilodaltons which specifically bound antibody to HDAg but not HBV-specific antibodies were detected in the interior of the 36-nm particle. Since these proteins were structural components of HDAg and were most likely coded for by HDV, they were designated P27d and P29d.
...
PMID:Hepatitis delta virus: protein composition of delta antigen and its hepatitis B virus-derived envelope. 370 32
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.
...
PMID:Immunochemical structure of the hepatitis B surface antigen vaccine--II. Analysis of antibody responses in human sera against the envelope proteins. 374 12
P24, P30, and
P39
, the three major surface antigens of the envelope of
hepatitis B
virus, are co-carboxy-terminal proteins with different amino-terminal extensions. We prompted expression of these proteins in Chinese hamster ovary (CHO) cells by placing the appropriate coding sequence(s) under the control of the simian virus 40 early promoter. P24 and P30 formed 22-nm particles which were efficiently secreted. In contrast,
P39
accumulated in a perinuclear structure, presumably the Golgi complex, and was not secreted. Coexpressing
P39
and P24 resulted in the localization of both in the perinuclear region and restricted the secretion of P24. We found that
P39
must be expressed at a relatively low level to allow efficient secretion of P24 in typical spherical particles. We hypothesize that
P39
, by inhibiting the formation of spherical particles, helps to induce formation of filamentous particles and mature
Hepatitis B
virus.
...
PMID:Regulation of secretion of the hepatitis B virus major surface antigen by the preS-1 protein. 380 98
The sequence of
hepatitis B
virus DNA contains an open reading frame which codes for a not-yet-identified protein of at least 389 amino acids. Only the products starting at the third (GP33/GP36) or the fourth (P24/GP27) initiation signal have been characterized as components of the viral surface antigen. We found a larger protein,
P39
, and its glycosylated form, GP42, in
hepatitis B
virus particles and viral surface antigen filaments. Immunological cross-reactions showed that
P39
/GP42 is partially homologous to P24/GP27 and GP33/GP36. The unique portion of its sequence bound monoclonal antibodies which had been induced by immunization with
hepatitis B
virus particles. Proteolytic cleavage patterns and subtype-specific size differences suggested that the sequence of
P39
starts with the first initiation signal of the open reading frame. Its amino-terminal part (pre-s coded) is exposed at the viral surface and, probably, is highly immunogenic. A model is presented of how the open reading frame for the viral envelope leads to defined amounts of three different proteins.
...
PMID:Large surface proteins of hepatitis B virus containing the pre-s sequence. 649 55
