Recombinant core particles of hepatitis B virus exposing foreign antigenic determinants on their surface

Borisova, Galina; Berzins, I.; Pushko, Peter; Pumpen, P.; Gren, E.J.; Tsibinogin, V.; Loseva, V.; Ose, Velta; Ulrich, Rainer G.; Siakkou, H; Rosenthal, H. A.

doi:10.1016/0014-5793(89)81509-1

Cited by 84 publications

(46 citation statements)

References 12 publications

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“…Unexpectedly, we found that at higher concentrations of proteinase K, the capsid signal displayed an upshift pattern. The cause of the shift could be due to the removal of associated proteins from the exterior of the capsid or the cleavage of the C-terminal tail of the core protein, which is believed to extend out from the capsid, at least sometimes (7,45,46). Interestingly, a similar pattern was observed when HBV capsids were treated with SDS.…”

Section: Vol 82 2008 Incorporation Of A3g Into Hbv Nucleocapsids 6857mentioning

confidence: 99%

Reverse Transcriptase- and RNA Packaging Signal-Dependent Incorporation of APOBEC3G into Hepatitis B Virus Nucleocapsids

Nguyen

2008

J Virol

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APOBEC3G (A3G) is a cytidine deaminase that can inhibit a wide range of retroviruses, including the para-retrovirus hepatitis B virus (HBV). The antiviral function of A3G depends on its incorporation into assembling viral particles. However, it remains enigmatic how A3G is specifically packaged into a variety of unrelated viruses. By adopting a native agarose gel electrophoresis assay that can specifically measure the levels of A3G incorporation into HBV nucleocapsids, we found that A3G is specifically packaged into replication-competent HBV nucleocapsids in a fashion that is dependent on both the viral reverse transcriptase (RT) and viral RNA packaging signal, . In contrast, A3G is not incorporated into empty capsids formed in the absence of RT or . We demonstrated that the packaged A3G was protected from protease digestion by the nucleocapsids, thus confirming its interior localization. We also showed that A3G could bind RT specifically in an RNA-independent manner, which may be responsible for mediating the specific incorporation of A3G into replication-competent nucleocapsids. Finally, we provide evidence that the N-terminal domain of A3G is required for packaging into HBV nucleocapsids.

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Section: Vol 82 2008 Incorporation Of A3g Into Hbv Nucleocapsids 6857mentioning

confidence: 99%

Reverse Transcriptase- and RNA Packaging Signal-Dependent Incorporation of APOBEC3G into Hepatitis B Virus Nucleocapsids

Nguyen

2008

J Virol

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“…1 In vaccine studies, HBcAg is a potent immunogen even in the absence of adjuvant, and can be used as a carrier molecule for homologueous and heterologous epitopes. [2][3][4][5][6] HBsAg is the antigen used in the commercial recombinant HBV vaccine, which has been proven over the last 20 years to be a very safe and effective prophylactic vaccine against HBV infection. 7 However, there remains a need for development of more potent hepatitis B vaccines, both for use as prophylactic vaccines in poor responders to the current HBV vaccines and for use in therapeutic HBV vaccination.…”

Section: Introductionmentioning

confidence: 99%

“…27 This is related to the ability of HBcAg to act as a potent B-cell activator, enabling activated B cells to work efficiently as primary APC. 4,5 Another explanation for the strong immunogenicity of HBcAg is the presence of nucleic acids bound to the C-terminal region of the HBcAg molecule. These nucleic acids are copurified with HBcAg as a nucleoprotein from Escherichia coli .…”

Section: Introductionmentioning

confidence: 99%

Development of a nasal vaccine for chronic hepatitis B infection that uses the ability of hepatitis B core antigen to stimulate a strong Th1 response against hepatitis B surface antigen

et al. 2004

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SummaryThere are estimated to be 350 million chronic carriers of hepatitis B infection worldwide. Patients with chronic hepatitis B are at risk of liver cirrhosis with associated mortality because of hepatocellular carcinoma and other complications. An important goal, therefore, is the development of an effective therapeutic vaccine against chronic hepatitis B virus (HBV). A major barrier to the development of such a vaccine is the impaired immune response to HBV antigens observed in the T cells of affected patients. One strategy to overcome these barriers is to activate mucosal T cells through the use of nasal vaccination because this may overcome the systemic immune downregulation that results from HBV infection. In addition, it may be beneficial to present additional HBV epitopes beyond those contained in the traditional hepatitis B surface antigen (HbsAg) vaccine, for example, by using the hepatitis B core antigen (HBcAg). This is advantageous because HBcAg has a unique ability to act as a potent Th1 adjuvant to HbsAg, while also serving as an immunogenic target. In this study we describe the effect of coadministration of HBsAg and HBcAg as part of a strategy to develop a more potent and effective HBV therapeutic vaccine.

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“…It has been proposed that these pores are essential to allow nucleotides access to the capsid interior during the DNA synthesis and it is also relevant to the reported accessibility of the C-terminal tail to proteinases and antibodies (Machida et al, 1991;Wynne et al, 1999). When the C-terminal region is replaced by foreign inserted sequences, these insertions can be detected by special antibodies on the outside of the assembled capsids (Borisova et al, 1989).…”

Section: Structural Characteristics Of the Capsid Protein Hbcagmentioning

confidence: 99%

The nucleocapsid of the hepatitis B virus: a remarkable immunogenic structure

2003

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The hepatitis B virus nucleocapsid or core antigen is extremely immunogenic during infection and after immunization. This review summarizes several features of the nucleocapsid which explain this exceptionally high immunogenicity: a unique three-dimensional folding, the presence of a region that interacts with immunoglobulins outside the classical antibody-binding site, the presence of many CD4+ T cell epitopes, and the presence of encapsidated nucleic acids. Because of these features, nucleocapsids efficiently interact and activate antigen presenting cells, especially naïve B cells. This leads to the generation of a dominant Th1 immunity phenotype and the secretion of high levels of IgM and IgG anti-nucleocapsid antibodies.

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Recombinant core particles of hepatitis B virus exposing foreign antigenic determinants on their surface

Cited by 84 publications

References 12 publications

Reverse Transcriptase- and RNA Packaging Signal-Dependent Incorporation of APOBEC3G into Hepatitis B Virus Nucleocapsids

Reverse Transcriptase- and RNA Packaging Signal-Dependent Incorporation of APOBEC3G into Hepatitis B Virus Nucleocapsids

Development of a nasal vaccine for chronic hepatitis B infection that uses the ability of hepatitis B core antigen to stimulate a strong Th1 response against hepatitis B surface antigen

The nucleocapsid of the hepatitis B virus: a remarkable immunogenic structure

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