CALCOCO2/NDP52 associates with RAB9 to initiate an antiviral response to hepatitis B virus infection through a lysosomal degradation pathway.

CALCOCO2/NDP52 recognizes LGALS8 (galectin 8)-coated invading bacteria and initiates anti-bacterial autophagy by recruiting RB1CC1/FIP200 and TBKBP1/SINTBAD-AZI2/NAP1. Whether CALCOCO2 exerts similar functions against viral infection is unknown. In our recent study we show that CALCOCO2 targets envelope proteins of hepatitis B virus (HBV) to the lysosome for degradation, resulting in inhibition of viral replication. In contrast to anti-bacterial autophagy, lysosomal degradation of HBV does not require either LGALS8 or ATG5, and CALCOCO2 mutants abolishing the formation of the RB1CC1-CALCOCO2-TBKBP1-AZI2 complex maintain their inhibitory function on the virus. CALCOCO2-mediated inhibition depends on RAB9, which is a key factor in the alternative autophagy pathway. CALCOCO2 forms a complex with RAB9 only in the presence of viral envelope proteins and links HBV to the RAB9-dependent lysosomal degradation pathway. These findings reveal a new mechanism by which CALCOCO2 triggers antiviral responses against HBV infection and suggest direct roles for autophagy receptors in other lysosomal degradation pathways than canonical autophagy.