scholarly journals Carboxypeptidase D Is an Avian Hepatitis B Virus Receptor

1999 ◽  
Vol 73 (10) ◽  
pp. 8696-8702 ◽  
Author(s):  
Shuping Tong ◽  
Jisu Li ◽  
Jack R. Wands
Keyword(s):  
Hepatitis B Virus ◽  
Hepatitis B ◽  
Cell Lines ◽  
Virus Binding ◽  
Duck Hepatitis ◽  
Viral Particles ◽  
B Virus ◽  
Carboxypeptidase D ◽  
Immortalized Cell

ABSTRACT The receptor molecules for human and animal hepatitis B viruses have not been defined. Previous studies have described a 170 to 180 kDa molecule (p170 or gp180) that binds in vitro to the pre-S domain of the large envelope protein of duck hepatitis B virus (DHBV); cDNA cloning revealed the binding protein to be duck carboxypeptidase D (DCPD). In the present study, the DCPD cDNA was transfected into several nonpermissive human-, monkey-, and avian species-derived cell lines. Cells transfected with a plasmid encoding the full-length DCPD protein bound DHBV particles, whereas cells expressing truncated versions of DCPD protein that fail to bind the pre-S protein did not. The DHBV binding to DCPD-reconstituted cells was blocked by a monoclonal antibody that neutralizes DHBV infection of primary duck hepatocytes (PDH) and also by a pre-S peptide previously shown to inhibit DHBV infection of PDH. In addition to promoting virus binding, DCPD expression was associated with internalization of viral particles. The entry process was prevented by incubation of reconstituted cells with DHBV at 4°C and by the addition of energy-depleting agents known to block DHBV entry into PDH. These results demonstrated that DCPD is a DHBV receptor. However, the lack of complete viral replication in DCPD-reconstituted cells suggested that additional factors are required for postentry events in immortalized cell lines.

scholarly journals A Short Sequence within Domain C of Duck Carboxypeptidase D Is Critical for Duck Hepatitis B Virus Binding and Determines Host Specificity

2001 ◽  
Vol 75 (22) ◽  
pp. 10630-10642 ◽  
Author(s):  
Hans Christian Spangenberg ◽  
Hong Bock Lee ◽  
Jisu Li ◽  
Fulong Tan ◽  
Randal Skidgel ◽  
...  
Keyword(s):  
Hepatitis B Virus ◽  
Hepatitis B ◽  
Host Specificity ◽  
Cell Surface Receptor ◽  
Virus Binding ◽  
Duck Hepatitis B Virus ◽  
Duck Hepatitis ◽  
Major Interest ◽  
B Virus ◽  
Carboxypeptidase D

ABSTRACT Virus-cell surface receptor interactions are of major interest. Hepadnaviruses are a family of partially double-stranded DNA viruses with liver tropism and a narrow host range of susceptibility to infection. At least in the case of duck hepatitis B virus (DHBV), host specificity seems controlled partly at the receptor level. The middle portion in the pre-S region of the viral large envelope protein binds specifically to duck carboxypeptidase D (DCPD) but not to its human or chicken homologue. Although domain C of DCPD is implicated in ligand binding, the exact pre-S contact site remains to be determined. We prepared and tested a panel of chimeric constructs consisting of DCPD and human carboxypeptidase D (HCPD). Our results indicate that a short region at the N terminus of domain C (residues 920 to 949) is critical to DHBV binding and is a major determinant for the host specificity of DHBV infection. Replacing this region of the DCPD molecule with its human homologue abolished the DHBV interaction, whereas introducing this DCPD sequence into HCPD conferred efficient DHBV binding. Extensive analysis of site-directed mutants revealed that both conserved and nonconserved residues were important for the pre-S interaction. There were primary sequence variations and secondary structural differences that contributed to the inability of HCPD to bind the DHBV pre-S domain.

Effect of 3′-azido-3′-deoxythymidine on replication of duck hepatitis B virus in vivo and in vitro

1989 ◽  
Vol 29 (4) ◽  
pp. 244-248 ◽  
Author(s):  
Hideaki Haritani ◽  
Toshikazu Uchida ◽  
Yasunori Okuda ◽  
Toshio Shikata
Keyword(s):  
Hepatitis B Virus ◽  
Hepatitis B ◽  
Duck Hepatitis B Virus ◽  
Duck Hepatitis ◽  
B Virus

scholarly journals Anti-Hepatitis B Virus Activity of Esculetin from Microsorium fortunei In Vitro and In Vivo

Molecules ◽  
2019 ◽  
Vol 24 (19) ◽  
pp. 3475 ◽  
Author(s):  
Si-Xin Huang ◽  
Jun-Fei Mou ◽  
Qin Luo ◽  
Qing-Hu Mo ◽  
Xian-Li Zhou ◽  
...  
Keyword(s):  
Hepatitis B Virus ◽  
Hepatitis B ◽  
Hepatitis B Surface Antigen ◽  
Antiviral Drug ◽  
Liver Carcinoma ◽  
Dependent Manner ◽  
Duck Hepatitis ◽  
B Virus

Coumarins are widely present in a variety of plants and have a variety of pharmacological activities. In this study, we isolated a coumarin compound from Microsorium fortunei (Moore) Ching; the compound was identified as esculetin by hydrogen and carbon spectroscopy. Its anti-hepatitis B virus (HBV) activity was investigated in vitro and in vivo. In the human hepatocellular liver carcinoma 2.2.15 cell line (HepG2.2.15) transfected with HBV, esculetin effecting inhibited the expression of the HBV antigens and HBV DNA in vitro. Esculetin inhibited the expression of Hepatitis B virus X (HBx) protein in a dose-dependent manner. In the ducklings infected with duck hepatitis B virus (DHBV), the levels of DHBV DNA, duck hepatitis B surface antigen (DHBsAg), duck hepatitis B e-antigen (DHBeAg), alanine aminotransferase (ALT) and aspartate aminotransferase (AST) decreased significantly after esculetin treatment. Summing up the above, the results suggest that esculetin efficiently inhibits HBV replication both in vitro and in vivo, which provides an opportunity for further development of esculetin as antiviral drug.

Duck hepatitis B virus polymerase gene mutants associated with resistance to lamivudine have a decreased replication capacity in vitro and in vivo

2001 ◽  
Vol 34 (1) ◽  
pp. 114-122 ◽  
Author(s):  
Béatrice Seignères ◽  
Stéphanie Aguesse-Germon ◽  
Christian Pichoud ◽  
Isabelle Vuillermoz ◽  
Catherine Jamard ◽  
...  
Keyword(s):  
Hepatitis B Virus ◽  
Hepatitis B ◽  
Replication Capacity ◽  
Polymerase Gene ◽  
Duck Hepatitis B Virus ◽  
Duck Hepatitis ◽  
B Virus

scholarly journals Formation of a Functional Hepatitis B Virus Replication Initiation Complex Involves a Major Structural Alteration in the RNA Template

1998 ◽  
Vol 18 (11) ◽  
pp. 6265-6272 ◽  
Author(s):  
Jürgen Beck ◽  
Michael Nassal
Keyword(s):  
Hepatitis B Virus ◽  
Hepatitis B ◽  
Replication Initiation ◽  
State Structure ◽  
Duck Hepatitis ◽  
P Protein ◽  
Encapsidation Signal ◽  
B Virus ◽  
Covalently Linked

ABSTRACT The DNA genome of a hepatitis B virus is generated by reverse transcription of the RNA pregenome. Replication initiation does not involve a nucleic acid primer; instead, the hepadnavirus P protein binds to the structured RNA encapsidation signal ɛ, from which it copies a short DNA primer that becomes covalently linked to the enzyme. Using in vitro-translated duck hepatitis B virus (DHBV) P protein, we probed the secondary structure of the protein-bound DHBV ɛ RNA (Dɛ) and observed a marked conformational change compared to free Dɛ RNA. Several initiation-competent mutant RNAs with a different free-state structure were similarly altered, whereas a binding-competent but initiation-deficient variant was not, indicating the importance of the rearrangement for replication initiation and suggesting a mechanistic coupling to encapsidation.

scholarly journals Interaction between ganciclovir and foscarnet as inhibitors of duck hepatitis B virus replication in vitro.

1996 ◽  
Vol 40 (5) ◽  
pp. 1180-1185 ◽  
Author(s):  
G Civitico ◽  
T Shaw ◽  
S Locarnini
Keyword(s):  
Hepatitis B Virus ◽  
Hepatitis B ◽  
Hbv Dna ◽  
Duck Hepatitis ◽  
Chronic Hepatitis B Virus ◽  
B Virus ◽  
Dose Limiting Toxicity

Safe and effective treatments for chronic hepatitis B virus (HBV) infection have yet to be developed. Both ganciclovir (9-[1,3-dihydroxy-2-propoxymethyl]guanine) and foscarnet (trisodium phosphonoformate hexahydrate) are potent inhibitors of hepadnavirus replication when used individually in vitro and in vivo. However, the clinical usefulness of each drug is reduced by dose-limiting toxicity, especially during long-term monotherapy. Here we demonstrate additive inhibition of duck HBV DNA replication in cultures of primary duck hepatocytes congenitally infected with duck HBV by combinations of ganciclovir and foscarnet at low, clinically achievable concentrations. These results suggest that the effects of ganciclovir and foscarnet against HBV may be additive in vivo.

scholarly journals In Vitro Reconstitution of a Functional Duck Hepatitis B Virus Reverse Transcriptase: Posttranslational Activation by Hsp90

2000 ◽  
Vol 74 (24) ◽  
pp. 11447-11455 ◽  
Author(s):  
Jianming Hu ◽  
Dana Anselmo
Keyword(s):  
Hepatitis B Virus ◽  
Hepatitis B ◽  
Reverse Transcriptase ◽  
Host Factors ◽  
Duck Hepatitis B Virus ◽  
Duck Hepatitis ◽  
B Virus ◽  
Protein Priming ◽  
Hsp90 Function

ABSTRACT Reverse transcription in hepatitis B viruses is initiated through a unique protein priming mechanism whereby the viral reverse transcriptase (RT) first assembles into a ribonucleoprotein (RNP) complex with its RNA template and then initiates DNA synthesis de novo using the RT itself as a protein primer. RNP formation and protein priming require the assistance of host cell factors, including the molecular chaperone heat shock protein 90 (Hsp90). To better understand the mechanism of RT activation by Hsp90, we have now mapped the minimal RT sequences of the duck hepatitis B virus that are required for chaperone binding, RNP formation, and protein priming. Furthermore, we have reconstituted in vitro both RNP formation and protein priming using purified RT proteins and host factors. Our results show that (i) Hsp90 recognizes two independent domains of the RT, both of which are necessary for RNP formation and protein priming; (ii) Hsp90 function is required not only to establish, but also to maintain, the RT in a state competent for RNA binding; and (iii) Hsp90 is not required during RT synthesis and can activate the RT posttranslationally. Based on these findings, we propose a model for Hsp90 function whereby the chaperone acts as an active interdomain bridge to bring the two RT domains into a poised but labile conformation competent for RNP formation. It is anticipated that the reconstitution system established here will facilitate the isolation of additional host factors required for RT functions and further elucidation of the mechanisms of RT activation.

The pregenome/C RNA of duck hepatitis B virus is not used for translation of core protein during the early phase of infection in vitro

2015 ◽  
Vol 196 ◽  
pp. 13-19 ◽  
Author(s):  
Qiang Liu ◽  
Juan Huang ◽  
Renyong Jia ◽  
Mingshu Wang ◽  
Dekang Zhu ◽  
...  
Keyword(s):  
Hepatitis B Virus ◽  
Hepatitis B ◽  
Early Phase ◽  
Core Protein ◽  
Duck Hepatitis B Virus ◽  
Duck Hepatitis ◽  
B Virus

scholarly journals In Vitro Characterization of the Anti-Hepatitis B Virus Activity and Cross-Resistance Profile of 2′,3′-Dideoxy-3′-Fluoroguanosine

2006 ◽  
Vol 50 (3) ◽  
pp. 955-961 ◽  
Author(s):  
A.-C. Jacquard ◽  
M.-N. Brunelle ◽  
C. Pichoud ◽  
D. Durantel ◽  
S. Carrouée-Durantel ◽  
...  
Keyword(s):  
Hepatitis B Virus ◽  
Hepatitis B ◽  
Antiviral Activity ◽  
Drug Resistant ◽  
Free System ◽  
Hbv Replication ◽  
Duck Hepatitis ◽  
Huh7 Cells ◽  
B Virus

ABSTRACT The fluorinated guanosine analog 2′,3′-dideoxy-3′-fluoroguanosine (FLG) was shown to inhibit wild-type (wt) hepatitis B virus (HBV) replication in a human hepatoma cell line permanently expressing HBV. Experiments performed in the duck model of HBV infection also showed its in vivo antiviral activity. In this study, we investigated the mechanism of inhibition of FLG on HBV replication and its profile of antiviral activity against different HBV or duck hepatitis B virus (DHBV) drug-resistant mutants. We found that FLG-triphosphate inhibits weakly the priming of the reverse transcription compared to adefovir-diphosphate in a cell-free system assay allowing the expression of an enzymatically active DHBV reverse transcriptase. It inhibits more potently wt DHBV minus-strand DNA synthesis compared to lamivudine-triphosphate and shows a similar activity compared to adefovir-diphosphate. FLG-triphosphate was most likely a competitive inhibitor of dGTP incorporation and a DNA chain terminator. In Huh7 cells transiently transfected with different HBV constructs, FLG inhibited similarly the replication of wt, lamivudine-resistant, adefovir-resistant, and lamivudine-plus-adefovir-resistant HBV mutants. These results were consistent with those obtained in the DHBV polymerase assay using the same drug-resistant polymerase mutants. In conclusion, our data provide new insights in the mechanism of action of FLG-triphosphate on HBV replication and demonstrate its inhibitory activity on drug-resistant mutant reverse transcriptases in vitro. Furthermore, our results provide the rationale for further clinical evaluation of FLG in the treatment of drug-resistant virus infection and in the setting of combination therapy to prevent or delay drug resistance.

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