| Abstract [eng] |
Hepatitis B virus (HBV) is a major human pathogen, but up to now little is known about its core protein (HBc) interactions with host proteins. The role of mutated HBc proteins in enhanced pathogenicity of mutant viruses is also unclear. In this work, the yeast two-hybrid system was employed to find human proteins interacting with HBV core mutants HBc1 and HBc2, as well as with the wild-type core protein. All HBc variants strongly and specifically interacted with human proteins GIPC1 and GIPC2. Common protein interaction domain PDZ in both GIPC1 and GIPC2 was identified as the region interacting with the C-end of HBc. A putative PDZ-interacting motif was identified at the C-end of the HBc protein, and variation of this sequence influenced determined interactions. Human proteins FLJ20850 and IKKγ (NEMO) strongly and specifically interacted with mutants HBc1 and HBc2 only. Gene structure and expression FLJ20850 protein, which was never before described in scientific literature, were analyzed bioinformatically. Detailed analysis of interacting protein pairs revealed regions, responsible for discovered interactions. IKKγ is known as an important regulator of transcription factor NF-kB, therefore HBc1 influence on NF-kB activity in human cells was evaluated experimentally. Determined protein interactions potentially add to understanding of HBV replication and pathogenicity and could serve as targets for developing of new antivirals. |
