In vivo expression of a new hepatitis B virus protein encoded by a spliced RNA
Patrick Soussan, … , Christian Brechot, Dina Kremsdorf
Patrick Soussan, … , Christian Brechot, Dina Kremsdorf
Published January 1, 2000
Citation Information: J Clin Invest. 2000;105(1):55-60. https://doi.org/10.1172/JCI8098.
View: Text | PDF
Article

In vivo expression of a new hepatitis B virus protein encoded by a spliced RNA

Abstract

Hepatitis B virus (HBV) is a small DNA virus with a compact genomic organization. All HBV proteins identified to date have been encoded by unspliced HBV RNAs. Spliced HBV RNAs have been described, but their functions are unknown. We show here that a singly spliced HBV RNA encodes a novel HBV protein in vivo. This HBV splice-generated protein (HBSP) corresponds to the fusion of a part of the viral polymerase and a new open reading frame that is created by the splicing event. In vivo, HBSP protein was found in HBV-infected liver samples, and anti-HBSP antibodies occurred in one-third of sera samples collected from chronic HBV carriers. In vitro, the ectopic expression of HBSP had no effect on viral DNA replication or transcription but induced cell apoptosis without a cell-cycle block. Overall, our results suggest that HBV has evolved a mechanism that directly modulates virus-cell interaction through RNA splicing.

Authors

Patrick Soussan, Florianne Garreau, Hervé Zylberberg, Cyrille Ferray, Christian Brechot, Dina Kremsdorf

×

Figure 2

Options: View larger image (or click on image) Download as PowerPoint
(a) Absence of an in vitro effect of HBSP expression on HBV transcriptio...
(a) Absence of an in vitro effect of HBSP expression on HBV transcription and replication. HuH7 cells were transiently transfected with HBV (lanes 1 and 3) or were cotransfected with HBV- and HBSP-expressing vectors (lanes 2 and 4). Forty hours after transfection, the HBV transcripts (left) and DNA replicative intermediates (right) were analyzed using Northern or Southern blots, respectively. RC, relax circular DNA; DL, double-stranded linear DNA; SS, single strand DNA. (b) Localization and in vitro expression of HBSP using a rabbit polyclonal anti-HBSP antibody. Top: Cellular distribution of HBSP in HuH7-transfected cells, revealed by immunofluorescence. Bottom: Western blot analysis of HuH7 cells transiently expressing HBSP (lane 4), and nontransfected cells (lane 3). Molecular weight (lane 2). Positive control was pET-HBSP bacterial protein (lane 1).