The expanding toolbox for hepatitis C virus research

Functional evaluation of synthetic flavonoids and chalcones for potential antiviral and anticancer properties

Flavonoids, stilbenes, and chalcones are plant secondary metabolites that often possess diverse biological activities including anti-inflammatory, anti-cancer, and anti-viral activities. The wide range of bioactivities poses a challenge to identify their targets. Here, we studied a set of synthetically generated flavonoids and chalcones to evaluate for their biological activity, and compared similarly substituted flavonoids and chalcones. Substituted chalcones, but not flavonoids, showed inhibition of viral translation without significantly affecting viral replication in cells infected with hepatitis C virus (HCV). We suggest that the chalcones used in this study inhibit mammalian target of rapamycin (mTOR) pathway by ablating phosphorylation of ribosomal protein 6 (rps6), and also the kinase necessary for phosphorylating rps6 in Huh7.5 cells (pS6K1). In addition, selected chalcones showed inhibition of growth in Ishikawa, MCF7, and MDA-MB-231 cells resulting an IC₅₀ of 1-6µg/mL. When similarly substituted flavonoids were used against the same set of cancer cells, we did not observe any inhibitory effect. Together, we report that chalcones show potential for anti-viral and anti-cancer activities compared to similarly substituted flavonoids.

Transmission of hepatitis E virus infection to human-liver chimeric FRG mice using patient plasma

Hepatitis E virus (HEV) is considered as an important pathogen in developing countries but there is growing evidence of its increasing significance and prevalence in the Western world. Although most acute HEV infections resolve spontaneously, chronicity has been observed in immunocompromised patients. The study of HEV has been hampered by the absence of practical animal models. Because the in vivo study of HEV was essentially limited to primates and pigs we recently established the human-liver chimeric uPA-SCID mouse model as a useful tool to study HEV infection. Because the humanized FRG mouse model, another type of mouse with humanized liver, is more easily accessible to the scientific community, we investigated its susceptibility to HEV infection. FRG mice were transplanted with human hepatocytes and challenged with different HEV genotypes using different routes of exposure. Our data clearly shows that the humanized FRG mouse is an alternative animal model for the study HEV infection. As observed in the uPA-SCID model, controlled oral inoculation did not lead to active infection. However, intrasplenic injection of genotype 3-infected patient plasma did result into persistent infection. Although the efficiency of transmission was low, this observation corroborates previously published case reports of blood transfusion-associated HEV transmission.

A profiling study of a newly developed HCVcc strain PR63cc's sensitivity to direct-acting antivirals

The development of direct-acting antivirals (DAAs) has significantly improved hepatitis C virus (HCV) treatment. However, drug resistance remains a potential concern in the real-world DAA-based therapies. We previously developed a novel full-length genotype 2a HCVcc clone PR63cc directly from clinical isolates. Here in this study, we compared the sensitivity of PR63cc and JFH1 to 12 different DAAs most of which are either already in clinical use or in the late clinical development phase. For NS5B inhibitors, PR63cc and JFH1 displayed comparable sensitivity to nucleoside/nucleotide analogues sofosbuvir and 2'-C-methyladenosine, while PR63cc was 4-fold more sensitive than JFH1 to nesbuvir, a non-nucleoside inhibitor. Interestingly, PR63cc and JFH1 were both completely resistant to dasabuvir which efficiently inhibited the replication of genotype 1b HCV replicon. For NS5A inhibitors, while PR63cc was as sensitive as JFH1 to ombitasvir and velpatasvir, it was much more resistant than JFH1 to daclatasvir and ledipasvir, which was mainly due to methionine at amino acid residue 31 of NS5A. For NS3 inhibitors, PR63cc was generally less sensitive than JFH1 to simeprevir, grazoprevir, asunaprevir and paritaprevir. Serine at residue 67 of NS3 was identified to be a resistance-associated variant (RAV) for asunaprevir. Finally, we showed that PR63cc was more resistant than JFH1 to the asunaprevir/daclatasvir combination treatment. In summary, our study systemically analyzed the DAA sensitivity of a new HCVcc strain and identified critical RAVs. These results are not only important for monitoring the emergence of drug-resistant mutations of current DAA therapies, but also valuable for developing next-generation DAAs.