Existence of an operative pathway from the endoplasmic reticulum to the immature poxvirus membrane.

In thin sections of cells infected with vaccinia virus or other poxviruses, the viral membrane is first discerned as a crescent or circle lacking obvious continuity with a cellular organelle, presenting an appearance of de novo membrane biogenesis. This notion, which many consider heretical, is nevertheless consistent with the absence of a signature of endoplasmic reticulum (ER) trafficking, such as signal peptide cleavage or glycosylation, in any of the numerous viral membrane proteins. The purpose of this study was to determine whether an operative pathway exists between the ER and the immature virion membrane. We showed that the highly conserved A9 viral membrane protein was inserted into the ER of uninfected cells with the same topology as in viral membranes. Next, we found that replacement of the nonessential cytoplasmic tail of A9 with one containing COPII-binding sites reduced incorporation of the modified A9 into viral membranes and led to its accumulation in the Golgi apparatus, implying that A9 was inserted into the ER and then diverted from its natural path. Most importantly, we demonstrated cleavage of a heterologous signal peptide fused to the N-terminal region of A9 and localized the truncated protein in immature and mature virions. Additionally, immunoelectron micrographs showed A9 in tubules containing protein disulfide isomerase, an ER lumenal protein, near immature viral membranes. The present data provide strong evidence for an operative pathway from ER domains within the virus factory to the viral membrane.