Bluetongue virus, an arbovirus of the Orbivirus genus, infects and replicates in both insect and mammalian cells. However, the cytopathic effect (cpe) on each host is very different. Mammalian cells show substantial cpe, most likely a result of the mechanism of virus release, whereas insect cells show little cpe and appear to release virus without cell lysis. Expression analysis of each infected cell type shows one protein, the nonstructural (NS) protein NS3, to be differentially expressed in the different cell types, suggesting it may act in the virus egress pathway. The molecular basis of such an interaction, however, has never been clear. Here, by using yeast two-hybrid analysis, we show that NS3 interacts with a cellular protein p11 (calpactin light chain), part of the annexin II complex that is involved in exocytosis. We map the NS3 region of interaction with p11 to a 13-residue peptide found at the N terminus of the protein and show it effectively competes with p36 (annexin II heavy chain) for p11 ligand binding. Further, we show that the C-terminal domain of NS3 interacts with VP2, the outermost protein of the fully assembled virus particle, suggesting that NS3 forms a bridging molecule that draws assembled virus into contact with the cellular export machinery. Our data describe the first host protein involvement in orbivirus egress and provide new insights into understanding arbovirus interactions with their hosts.I nsect-borne arboviruses (arthropod-borne viruses), such as members of genus Orbivirus, are vectored to vertebrate species by arthropod species (e.g., gnats, mosquitoes, and ticks) and replicate in both hosts. However, whereas in vertebrate host cells these viruses cause severe cell damage, infections of insect cells are often inapparent. Bluetongue virus (BTV), the prototype virus of the genus Orbivirus, is transmitted by Culicoides spp., causing a disease of economical importance in the vertebrate hosts (ruminants) in many parts of the world. Other orbiviruses (14 serogroups within the genus, including African horse sickness virus and Epizootic hemorrhagic disease virus of deer) infect a variety of vertebrates, including humans, often causing severe diseases (1).Unlike the other arboviruses, BTV and other orbiviruses are nonenveloped and lack the glycosylated proteins known to facilitate both virus entry and exit processes. Consequently, orbiviruses are released from the infected cells predominantly by cell lysis (2, 3). However, BTV causes less severe cytopathic effects in insect vector cells despite highly efficient virus replication (4). BTV release from vector cells is nonlytic, and the virus particles leave the infected cell by passage, either individually or in groups, through a locally disrupted plasma membrane (5). However, the exact mechanism of cell-to-cell spread by the virus is not clear, and how the virus controls differential egress in insect and mammalian cells is one of the most intriguing aspects of BTV biology.BTV virions are architecturally complex icosahedral structures c...
