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)

Hepatitis delta antigen (HDAg) consists of two protein species of 195 and 214 amino acids, respectively, which are identical in sequence except that the large HDAg has additional 19 amino acids at its C terminus and is prenylated. Previous studies have shown that the large HDAg and the surface antigen of hepatitis B virus (HBsAg) together can form empty hepatitis delta virus (HDV) particles. To understand the molecular mechanism of HDV virion morphogenesis, we investigated the possible direct protein-protein interaction between HDAg and HBsAg. We constructed recombinant baculoviruses expressing the major form of HBsAg and various mutant HDAgs and used these proteins for far-Western protein binding assays. We demonstrated that HBsAg interacted specifically with the large HDAg but not with the small HDAg. Using mutant HDAgs which have defective or aberrant prenylation, we showed that this interaction required isoprenylates on the cysteine residue of the C terminus of the large HDAg. Isoprenylation alone, without the remainder of the C-terminal amino acids of the large HDAg, was insufficient to mediate interaction with HBsAg. This study demonstrates a novel role of prenylates in HDV virion assembly.
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PMID:Isoprenylation mediates direct protein-protein interactions between hepatitis large delta antigen and hepatitis B virus surface antigen. 823 Apr 86

The genomes of six hepatitis B viral (HBV) strains were sequenced from 10 overlapping amplificates obtained by the polymerase chain reaction. Four of the strains, specifying subtypes ayw4 and adw4q-, represented on the basis of divergency within the S gene two new genomic groups identified by us. The other two strains, encoding adrq- and of Pacific origin, belonged to genomic group C. The relation of these genomes to 21 published human, 1 chimpanzee, and 4 rodent hepadnaviral genomes was analyzed by constructing a phylogenetic dendrogram. Thereby, the segregation of human HBV strains into six genomic groups was confirmed. A consistent grouping of the genomes compared was also obtained in dendrograms based on the P and S genes, although the branching order differed from that based on the entire genomes. Each of the two representatives of genomic groups E and F differed by 8.1 to 13.6% and by 12.8 to 15.5% from the genomes of the other groups and by 1.5 and 3.7% from each other. The two Pacific group C strains differed by 2.7% from each other and by 4.1 to 5.4% from other group C genomes, suggesting that they diverged early from the other group C genomes. The F strains formed the most divergent group of HBV genomes, which may be explained by their representing the original strains of the New World. Within the structural gene products, 17 and 34 amino acids unique for human HBV strains were recorded in the sequenced E and F strains, respectively. Most notable is the Ser81 to Ala81 substitution in an immunodominant region of HBcAg, and the four extra cysteine residues in HBsAg at residues 19, 183, 206, and 220, which might be engaged in additional disulphide bridges. Five residues shared by E and F strains were also unique for human HBV strains. Two of these, Leu127 and Ser140 in HBsAg, were the only substitutions that may explain the w4 reactivity shared by these HBV strains. Interestingly, the Ser140 substitution occurs in an immunodominant loop of the a determinant claimed to be important for the protective immune response to HBV vaccination.
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PMID:Complete genomes, phylogenetic relatedness, and structural proteins of six strains of the hepatitis B virus, four of which represent two new genotypes. 829 Dec 31

A G:C-->T:A mutational hotspot at codon 249 of the p53 tumor suppressor gene has previously been identified in hepatocellular carcinoma (HCC) of patients from Qidong, China and southern Africa in which aflatoxin B1 (AFB1) and hepatitis B virus (HBV) are known synergistic risk factors. We have examined p53 mutation patterns of HCC from geographic areas in which the risk factors vary. Nine HCC lines and four hepatoblastoma lines (HB) were examined for p53 gene mutations and the relationship with HBV infection. Five of the nine HCC lines had homozygous mutation or deletion randomly distributed in exons 6-8, whereas none of the four HB cell lines had p53 mutations. One of the four HB lines (HepG2) had an N-ras mutation at codon 61 position 2. The p53 point mutations in the three HCC cell lines from Japan resulted in the amino acid changes of cysteine for tyrosine in cell line HuH 7 at codon 220 (A:T-->G:C), alanine for glycine in cell line HLF at codon 244 (G:C-->C:G), and serine for arginine in cell line HLE at codon 249 (G:C-->C:G). In addition, the deletion of 18 base pairs from codon 264 position 3 to codon 270 position 1 has resulted in the deletion of Leu-Gly-Arg-Asn-Ser-Phe from the amino acids sequences 256-270 in the Japanese cell line HuH 4. The cell line PLC/PRF/5 that showed p53 mutation at codon 249 (G:C-->T:A) with substitution of serine for arginine was derived from a South African patient. Our results indicate that whereas the p53 gene is not mutated in the HB cell lines, the HCC cell lines frequently contain an abnormal p53 gene. In addition, p53 point mutations were not detected in the four Japanese HCC cell lines that were positive for genomic integration of HBV X-gene and surface antigen gene. The three Japanese HCC cell lines with p53 mutations did not contain HBV sequences, indicating that hepatocarcinogenesis associated with p53 mutation does not require the genomic integration of HBV sequences.
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PMID:p53 gene mutation and integrated hepatitis B viral DNA sequences in human liver cancer cell lines. 838 56

The small envelope protein of hepatitis B virus is the major component of the viral coat and is also secreted from cells as a 20-nm subviral particle, even in the absence of other viral proteins. Such empty envelope particles are composed of approximately 100 copies of this polypeptide and host-derived lipids and are stabilized by extensive intermolecular disulfide cross-linking. To study the contribution of disulfide bonds to assembly and secretion of the viral envelope, single and multiple mutants involving all 14 cysteines in HepG2 and COS-7 cells were analyzed. Of the six cysteines located outside the region carrying the surface antigen, Cys-48, Cys-65, and Cys-69 were each found to be essential for secretion of 20-nm particles, whereas Cys-76, Cys-90, and Cys-221 were dispensable. By introduction of an additional cysteine substituting serine 58, the yield of secreted particles was increased. Of four mutants involving the eight cysteines located in the antigenic region, only the double mutant lacking Cys-121 and Cys-124 was secreted with wild-type efficiency. Secretion-competent envelope proteins were intracellularly retained by secretion-deficient cysteine mutants. According to alkylation studies, both intracellular and secreted envelope proteins contained free sulfhydryl groups. Disulfide-linked oligomers were studied by gel electrophoresis under nonreducing conditions.
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PMID:Mutational analysis of the cysteine residues in the hepatitis B virus small envelope protein. 839

The hepatitis B virus core gene codes for two polypeptides: the core protein, which assembles to form particles (HBcAg), and the secreted precore protein (HBeAg). Expression vectors directing the synthesis in Escherichia coli of a recombinant HBeAg corresponding in sequence to serum-derived HBeAg encompassing the 10 precore amino acids remaining after cleavage of the precursor and residues 1-149 of HBcAg (PC-HBeAg) were constructed. Recombinant PC-HBeAg, HBcAg, and C-terminally truncated HBcAg were isolated from E. coli and analyzed by sucrose velocity sedimentation, electron microscopy, anti-HBc/e specific monoclonal antibody analysis, and for immunogenicity. HBcAg and truncated HBcAg formed 27-nm particles and displayed HBc antigenicity. In contrast, PC-HBeAg was nonparticulate and did not band in sucrose gradients. PC-HBeAg was recognized efficiently by HBeAg-specific antibodies and displayed little HBc antigenicity. Immunogenicity studies including T and B cell recognition confirmed that PC-HBeAg demonstrates HBe antigenicity. The presence of the 10 precore amino acids therefore prevented particle formation. To analyze which precore amino acids might be responsible for the prevention of particle formation a cysteine to glutamine substitution at amino acid position -7 was introduced into PC-HBeAg (-7C-->Q)PC-HBeAg. This single amino acid change at position -7 restored particle formation and HBc antigenicity. The evolutionarily conserved cysteine at position -7 thus appears responsible for the prevention of particle assembly in the HBeAg biosynthesis pathway.
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PMID:Structure of hepatitis B virus core and e-antigen. A single precore amino acid prevents nucleocapsid assembly. 841 35

The mature form of the secretory core protein (HBe protein) of human hepatitis B virus contains four cysteines which are located at amino acid positions -7, 48, 61, and 107 relative to the HBc start methionine. In addition, there is a cysteine, Cys-183, located in the C-terminal domain of the HBe precursor, which is cleaved during HBe maturation. Here, the significance of these cysteines for biosynthesis and antigenicity of the HBe protein was examined. The cysteines at positions -7 and 61 were found to be crucial for HBe biosynthesis. As has already been described, if the Cys at position -7 is mutated, disulfide-linked HBe homodimers which have both HBe antigenicity and HBc antigenicity are expressed. Here we show that these dimers are due to Cys-61-Cys-61 disulfide bridges which are formed only if the Cys at position -7 is not present. In the wild-type protein, this dimerization appears to be inhibited by formation of intramolecular disulfide bridges between the Cys at -7 and one of the internal cysteines. Moreover, Cys-61 is important for HBe biosynthesis in general since mutation of this amino acid results in production of HBe proteins which are either only poorly secreted or possess a different antigenicity.
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PMID:Relevance of cysteine residues for biosynthesis and antigenicity of human hepatitis B virus e protein. 843 17

The hepatitis B virus X protein (HBx) sequence (154 aa) has been divided into six regions (A-F) based on its sequence homology with X proteins of other mammalian hepadnaviruses. Regions A, C, and E are more conserved and include all the four conserved cysteines (C7, C61, C69, and C137). To localize the regions of HBx important for transactivation, a panel of 10 deletion mutants (X5-X14) and 4 single point mutants (X1-X4), each corresponding to a conserved cysteine residue, was constructed by site-directed mutagenesis. A HBx-specific monoclonal antibody was developed and used to confirm the expression of mutants by Western blot. Transactivation property of the HBx mutants was studied on Rous sarcoma virus-long terminal repeat (RSV-LTR) in transient transfection assays. We observed that deletion of the most conserved region A or substitution of the N-terminal cysteine (C7) had no effect on transactivation. Deletion of the nonconserved regions B or F also had no deleterious effects. Deletions of regions C and D resulted in a significant loss of function. Substitution of both C61 and C69 present in region C, caused almost 90% loss of activity that could be partially overcome by transfecting more expression plasmid. The fully conserved 9 amino acid segment (residues 132 to 140) within region E including C137 appeared to be crucial for its activity. Finally, a truncated mutant X15 incorporating only regions C to E (amino acids 58-140) was able to stimulate the RSV-LTR quite efficiently, suggesting a crucial role played by this domain in transactivation function.
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PMID:A truncated mutant (residues 58-140) of the hepatitis B virus X protein retains transactivation function. 864 31

The interaction of the immunogenic peptide of human hepatitis B virus (HBV) preS(120-145), including B and T epitopes, with phospholipid vesicles has been studied by fluorescence techniques and CD. In addition, interaction of three lipopeptides derived from preS(120-145) containing stearoyl, cholanoyl, and tripalmitoyl-S-glyceryl-cysteine (Pam3C) SS moieties with dipalmitoylphosphatidylcholine (DPPC) has been investigated by polarization fluorescence spectroscopy. Fluorescence experiments showed an increase in fluorescence intensity and a blue shift of the maximum emission wavelength upon interaction of preS(120-145) with DPPC vesicles below the transition temperature (Tc), indicating that the tryptophan moiety enters a more hydrophobic environment. Moreover, fluorescence polarization experiments showed that the peptide decreased the membrane fluidity at the hydrophobic core, increasing the Tc of the lipid and decreasing the amplitude of the change of fluorescence polarization associated with the cooperative melting of 1,6-diphenyl-1,3,5-hexatriene labeled vesicles. The absence of leakage of vesicle-entrapped carboxyfluorescein indicates that the peptide did not promote vesicle lysis. Besides, the three lipopeptides derived from preS(120-145) showed a more pronounced rigidifying effect at the hydrophobic core of the bilayer, with a significative increase in the Tc. Stearoyl- and cholanoyl-preS(120-145) restricted the motion of lipids also at the polar surface, whereas Pam3CSS-preS(120-145) did not alter the polar head group order. Finally, CD studies in 2,2,2-trifluoroethanol or in presence of vesicles suggested that the bound peptide adopted amphiphilic alpha-helical and beta-sheet structures, with an important contribution of the beta-turn. It is concluded that preS(120-145) can interact with the lipid membrane through the formation of an amphipathic structure combination of beta-sheet and alpha-helix aligned parallel to the membrane surface, involving the N-terminal residues, and penetrating only a short distance into the hydrophobic core. The C-terminal part, with a combination of beta-turn and beta-sheet structure, remains at the outer part of the bilayer, being potentially accessible to immunocompetent cells. Furthermore, coupling of an hydrophobic moiety to the N-terminal part of the peptide favors anchoring to the membrane, probably facilitating interaction of the peptide with the immunoglobulin receptor. These results are in agreement with the induction of immune response by preS(120-145) and with the enhanced immunogenicity found in general for lipid-conjugated immunopeptides.
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PMID:A fluorescence and CD study on the interaction of synthetic lipophilic hepatitis B virus preS(120-145) peptide analogues with phospholipid vesicles. 872 30

The small surface protein (S) of the hepatitis B virus (HBV) is synthesized as unglycosylated p24 and N-glycosylated gp27 and forms disulfide linked dimers. Former models proposed that these complexes consist preferentially of p24-gp27 heterodimers. Furthermore, cell free in vitro experiments suggested that p24 has a transmembrane topology different from gp27. We tested these models by expressing the HBV surface proteins in transfected cell cultures and characterizing early maturation products after short pulse labelings. Two dimensional unreduced-reduced polyacrylamide gel electrophoresis demonstrated that p24 and gp27 dimerized without preference for a specific pairing. Protease protection experiments showed that both, p24 and gp27, had identical transmembrane topologies in cell culture. The middle sized (M) and large HBV surface proteins formed mixed dimers with the S protein. Mutant M and S protein in which all 10 cysteine residues in the ectodomain and transmembrane regions were replaced by serine residues formed no intermolecular S-S bridges but were secreted like wild type M and S protein.
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PMID:Characterization of early hepatitis B virus surface protein oligomers. 877 81

In adult multicellular organisms, homeostasis is determined in each cell lineage by a balance between cell death and cell growth. Dysregulation of cell death mechanisms is involved in the pathogenesis of an increasing number of diseases. Defective apoptosis can participate in malignant transformation, viral latency and autoimmune diseases. Excessive apoptotic cell death is involved in CD4+ T-cell depletion observed in acquired immune deficiency syndrome, in fulminant hepatitis associated with infection by hepatitis B and C viruses, in some neurodegenerative disorders and haematological diseases, in polycystic kidney disease and ischaemia. Three steps can be distinguished in the pathway that leads to cell death. The first step involves interactions between the extracellular and intracellular signals that decide whether a cell should live or die. When death is chosen, a common pathway that involves at least the Bcl-2- family of proteins and the interleukin-1 beta (IL-1 beta)-converting enzyme-related cysteine proteases confirms whether or not the cell should die. Finally, if death is allowed to occur, the apoptotic process itself is characterized by deoxyribonucleic acid (DNA) fragmentation, proteolysis and morphological changes that precede the engulfment of apoptotic cells by neighbouring cells and phagocytes. Several inducers and inhibitors of apoptosis acting on one or several of these three steps that characterize the apoptotic process have been identified in vitro. Their potential usefulness in improving the current therapeutic strategies and designing new strategies in several different diseases is discussed.
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PMID:The role of apoptosis in the pathogenesis and treatment of diseases. 880 51


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