Abstract
Egress of vaccinia virus from its host cell is mediated by the microtubule-associated motor kinesin-1, and three viral proteins, A36 and the F12/E2 complex, have been implicated in this process. Deletion of F12 expression causes a more severe reduction in egress than deletion of A36 but whether these proteins are involved in the same or different mechanisms of kinesin-1 recruitment is unknown. Here it is shown that a virus lacking both proteins forms a smaller plaque than mutants lacking either gene alone, indicating non-redundant functions. A36 not only links virions directly to kinesin-1 but also nucleates actin polymerization to propel surface virions away from the host cell. To address the relative importance of these functions for virus spread, a panel of recombinant viruses was constructed in which the ability of A36 to bind kinesin-1 or to nucleate actin polymerization was abrogated individually or together, in the presence or absence of F12 expression. Analysis of these viruses revealed that in the presence of the F12 protein, loss of kinesin-1 interaction made a greater contribution to plaque size than did the formation of actin tails. However in the absence of F12, the ability of A36 to promote egress was abrogated. Therefore, the ability of A36 to promote egress by kinesin-1 is reliant on the F12 protein.
Highlights
Vaccinia virus (VACV) is the prototypic member of the Poxviridae, a family of large, complex DNA viruses that replicate in the cytoplasm of host cells [1] and includes variola virus, the causative agent of smallpox [2]
Recombinant VACVs expressing GFP fused to the A5 capsid protein have been constructed in a wild-type (WT) background [5] and in viruses lacking either A36 or F12 expression [44]
To test if mutations in A36 and F12 have a cumulative effect on intracellular enveloped virus (IEV) egress or VACV spread, a virus lacking both genes, vDA36DF12 or vDD, was constructed
Summary
Vaccinia virus (VACV) is the prototypic member of the Poxviridae, a family of large, complex DNA viruses that replicate in the cytoplasm of host cells [1] and includes variola virus, the causative agent of smallpox [2]. Some IMVs migrate away from viral factories in an MT-dependent process [8] and become wrapped by a double layer of early endosomal [9] or trans-Golgi [10] membranes, to form intracellular enveloped virus (IEV), called wrapped virus (WV). Released virions are called extracellular enveloped virus (EEV) (reviewed in Roberts and Smith [4]). These virions mediate long range spread of virus in cell culture and in vivo [16], and are resistant to complement due to incorporation of host complement control proteins into the EEV envelope [17]
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