The ABCE1 capsid assembly pathway is conserved between primate lentiviruses and the non-primate lentivirus feline immunodeficiency virus

Abstract During immature capsid assembly in cells, the Gag protein of HIV-1 and other primate lentiviruses co-opts a host RNA granule, forming a pathway of assembly intermediates that contains host components, including two cellular enzymes shown to facilitate assembly, ABCE1 and DDX6. Here we asked whether a non-primate lentivirus, feline immunodeficiency virus (FIV), also forms such RNA-granule-derived intracellular capsid assembly intermediates. First, we found that, unlike for HIV-1, the FIV completed immature capsid and the largest putative assembly intermediate are unstable during analysis. Next, we identified in situ cross-linking conditions that overcame this problem and revealed the presence of FIV Gag complexes that correspond in size to early and late HIV-1 assembly intermediates. Because assembly-defective HIV-1 Gag mutants are arrested at specific intracellular assembly intermediates, we asked if a similar arrest is also observed for FIV. We analyzed four FIV Gag mutants, including three not previously studied that we identified based on sequence and structural similarity to HIV-1 Gag, and found that each is assembly-defective and arrested at the same intermediate as the corresponding HIV-1 mutant. Further evidence that these FIV Gag-containing complexes correspond to assembly intermediates came from co-immunoprecipitation studies demonstrating that FIV Gag is associated with ABCE1 and DDX6, as shown previously for HIV-1. Finally, we validated these co-immunoprecipitations with a proximity ligation assay that revealed co-localization between assembly-competent FIV Gag and ABCE1 in situ. Together, these data offer novel structure-function insights and indicate that primate and non-primate lentiviruses form intracellular capsid assembly intermediates derived from ABCE1-containing RNA granules. ImportanceLike HIV-1, FIV Gag assembles into immature capsids; however, it is not known whether FIV Gag progresses through a pathway of immature capsid assembly intermediates derived from host RNA granules, as shown for HIV-1 Gag. Here we asked whether FIV Gag forms complexes similar in size to HIV-1 assembly intermediates and if FIV Gag is associated with ABCE1 and DDX6, two host enzymes that facilitate HIV-1 immature capsid assembly that are found in HIV-1 assembly intermediates. Our studies identified FIV Gag-containing complexes that closely resemble HIV-1 capsid assembly intermediates, showed that known and novel assembly-defective FIV Gag mutants fail to progress past these putative intermediates, and utilized biochemical and imaging approaches to demonstrate association of FIV Gag with ABCE1 and DDX6. Thus, we conclude that viral-host interactions important for immature capsid assembly are conserved between primate and non-primate lentiviruses, and could yield important targets for future antiviral strategies.