Activation of heterologous gene expression by the large isoform of hepatitis delta antigen

Y Wei, D Ganem - Journal of virology, 1998 - Am Soc Microbiol
Y Wei, D Ganem
Journal of virology, 1998Am Soc Microbiol
Hepatitis delta virus (HDV) encodes two isoforms of its principal gene product, hepatitis delta
antigen (HDAg). These two forms play distinctive and complementary roles in viral
replication. Here we report that the large (LHDAg), but not the small (SHDAg), isoform of
HDAg has the capacity to activate the expression of cotransfected genes driven by a variety
of promoters, including the pre-S, S, and C promoters of hepatitis B virus. Mutational
analysis of the C-terminal 19 amino acids unique to LHDAg shows that changing prolines to …
Abstract
Hepatitis delta virus (HDV) encodes two isoforms of its principal gene product, hepatitis delta antigen (HDAg). These two forms play distinctive and complementary roles in viral replication. Here we report that the large (LHDAg), but not the small (SHDAg), isoform of HDAg has the capacity to activate the expression of cotransfected genes driven by a variety of promoters, including the pre-S, S, and C promoters of hepatitis B virus. Mutational analysis of the C-terminal 19 amino acids unique to LHDAg shows that changing prolines to alanines in the two PXXP motifs in this region specifically ablates the activation function without abolishing another activity of LHDAg, namely, its ability to inhibit HDV RNA synthesis. However, C-terminal truncations that also disrupt these PXXP motifs only slightly diminished the activation function, indicating that the proline mutations were not acting by inactivating potential SH3 interactions that could be mediated by these motifs. Mutation of the isoprenylated cysteine to serine decreases but does not abolish the activation activity, and overexpression of SHDAg does not interfere with the transactivation function of LHDAg. Although the mechanism and biological significance of this activity of LHDAg remain unknown, the presence of this activity serves as yet another marker that functionally distinguishes this protein from the closely related isoform SHDAg.
American Society for Microbiology