DNA sensor ABCF1 phase separates with cccDNA to inhibit HBV replication

Objectives: Hepatitis B virus (HBV) covalently closed circular DNA (cccDNA) contributes to viral persistence and recurrence. However, it is still less known how the host immune system responds to cccDNA and suppresses HBV replication. Therefore, it is essential to explore host proteins that interact with cccDNA and efficiently suppress HBV replication. Design: The interaction of cccDNA and ABCF1 was assessed by ChIP and pull-down assay. HBV replication was assessed in different cell models, including cccDNA surrogate-transfected and HBV-infected hepatocytes models. Phase separation of recombinant ABCF1 fusion proteins with cccDNA was observed by fluorescence microscopy. Results: Our data found that ABCF1 interacts with cccDNA to form phase-separated condensates via the poly-glutamine (PolyQ) of N-terminal intrinsically disordered low-complexity domain (LCD). Subsequently, ABCF1-cccDNA phase separation not only activates the type I/III interferon (IFN-I/III) pathway but also prevents Pol II accumulation on cccDNA to inhibit HBV transcription. Conclusions: Taken together, our study showed that ABCF1 acts as an antiviral restriction factor of HBV cccDNA by phase-separation-driven innate immune signaling and transcription inhibition. These findings shed new light on the understanding of host defense against cccDNA and provide a novel promising therapeutic strategy for HBV infection.