Autographa californica multiple nucleopolyhedrovirus ac106 is required for the nuclear egress of nucleocapsids and intranuclear microvesicle formation.

Autographa californica multiple nucleopolyhedrovirus (AcMNPV) orf106 (ac106) is highly conserved in baculoviruses. Previous studies have shown that ac106 is required for the production of infectious budded virions (BVs). However, the functional role of ac106 in virion morphogenesis remains unknown. In this report, an ac106 knockout virus and an ac106 repair virus were constructed. The effect of ac106 deletion on virion morphogenesis was investigated, and the expression and subcellular localization of the Ac106 protein were characterized. Our data indicated that ac106 is required for the nuclear egress of nucleocapsids and intranuclear microvesicle formation, as well as subsequent BV and occlusion-derived virion (ODV) production and the embedding of ODVs into polyhedra. Ac106 is a baculovirus late protein that is concentrated in discrete foci of virus-induced membrane structures in the intranuclear ring zone of virus-infected cells. Further studies on the relationship between Ac106 and four other proteins that are also required for intranuclear microvesicle formation, Ac75, Ac76, Ac93, and P48 (Ac103), revealed that Ac106 is associated with Ac75, Ac76, Ac93, P48, and itself. Ac106 is required for Ac75, Ac93, and P48 accumulation in foci of virus-induced intranuclear membrane structures and the intranuclear transport of Ac76. Analysis of the subcellular localization of ODV integral envelope proteins upon deletion of the genes required for intranuclear microvesicle formation indicated that intranuclear microvesicle formation may be essential for ODV integral envelope protein transport into the nucleus, supporting the hypothesis that intranuclear microvesicles originate from the nuclear membrane.IMPORTANCEBaculovirus occlusion-derived virions (ODVs) are known to acquire their envelopes from virus-induced intranuclear microvesicles within the nucleoplasm, and this strategy of intranuclear envelopment of nucleocapsids to form virions is unique among viruses. However, the mechanism of ODV morphogenesis, particularly intranuclear microvesicle formation, remains unclear. In this study, we identified ac106 as the fifth gene, in addition to ac75, ac76, ac93, and p48 (ac103), which are required for intranuclear microvesicle formation. Further studies on the relationship between ac106 and the other four genes, as well as the effect of ac106 or ac75 deletion on the localization of ODV integral envelope proteins, indicated that intranuclear microvesicle formation may be essential for the transport of ODV integral envelope proteins into the nucleus, which strongly supports the hypothesis that intranuclear microvesicles originate from the nuclear membrane. These findings greatly enhance our understanding of the molecular mechanism of baculovirus ODV morphogenesis.