Chronic hepatitis B, a liver disease resulting from persisting hepatitis B virus (HBV) infection, remains a global health challenge despite the availability of an effective vaccine. Various preclinical studies using adeno-associated viruses (AAVs) to deliver anti-HBV RNA interference (RNAi) activators to mediate long-lasting HBV silencing show promise. Recent positive outcomes observed in clinical trials and the FDA approval of AAV-based drugs further demonstrate the potential of AAVs in antiviral therapeutic development. However, the prevalence of neutralizing antibodies against vectors based on extant AVV capsids limits the application of these vectors in human. The exciting reports on in silico designed and in vitro synthesized ancestral AAV (Anc80L65) with a potential to evade prevailing AAV neutralizing antibodies will significantly contribute to the success of these vectors in humans. Here, we describe methods for production and in vivo characterization of Anc80L65 expressing anti-HBV RNAi activators.
Keywords: Anc80L65; Ancestral AAV; Bioluminescence imaging; Hepatitis B virus; MicroRNAs; Q-PCR.