Antiviral Compounds Screening Targeting HBx Protein of the Hepatitis B Virus.
Yaojia MaShingo NakamotoJunjie AoNa QiangTadayoshi KogureKeita OgawaMiyuki NakagawaKisako FujiwaraTerunao IwanagaRyuta KojimaHiroaki KanzakiKeisuke KorokiKazufumi KobayashiNaoya KanogawaSoichiro KiyonoMasato NakamuraTakayuki KondoRyo NakagawaSadahisa OgasawaraRyosuke MuroyamaTetsuhiro ChibaJun KatoNaoya KatoPublished in: International journal of molecular sciences (2022)
A functional cure of hepatitis B virus (HBV) infection or HB antigen loss is rarely achieved by nucleos(t)ide analogs which target viral polymerase. HBx protein is a regulatory protein associated with HBV replication. We thought to identify antiviral compounds targeting HBx protein by analyzing HBx binding activity. Recombinant GST-tagged HBx protein was applied on an FDA-approved drug library chip including 1018 compounds to determine binding affinity by surface plasmon resonance imaging (SPRi) using a PlexArray HT system. GST protein alone was used for control experiments. Candidate compounds were tested for anti-HBV activity as well as cell viability using HepG2.2.15.7 cells and HBV-infected human hepatocytes. Of the 1018 compounds screened, 24 compounds showed binding to HBx protein. Of the top 6 compounds with high affinity to HBx protein, tranilast was found to inhibit HBV replication without affecting cell viability using HepG2.2.15.7 cells. Tranilast also inhibited HBV infection using cultured human hepatocytes. Tranilast reduced HB antigen level dose-dependently. Overall, theSPRi screening assay identified novel drug candidates targeting HBx protein. Tranilast and its related compounds warrant further investigation for the treatment of HBV infection.