The budding mechanism of spikeless vesicular stomatitis virus particles

Abstract

Virus particles, lacking the spike G-glycoproteins, are produced during infection of Vero cells with the vesicular stomatitis virus mutant ts045 at the restrictive temperature 39.5 degrees C. At this temperature the mutated G proteins are blocked in their intracellular transport in the endoplasmic reticulum. We have studied the role of the G proteins in the formation of these spikeless virus particles. The results showed that the spikeless particles contain a full complement of membrane anchors, derived from the carboxy-terminal end of the G protein. Our observations suggest that virus particles are formed at the restrictive temperature with G protein which is later cleaved to produce spikeless particles. We suggest that this is due to a leak of G protein to the cell surface at 39.5 degrees C where budding then takes place, presumably driven by a G protein C-terminal tail--nucleocapsid interaction.