Specific incorporation of host cell surface proteins into budding vesicular stomatitis virus particles

The specific incorporation of cell surface proteins into budding Vesicular Stomatitis Virus (VSV) particles was shown by two approaches. In the first, monolayer cultures of Vero or L cells were labeled by lactoperoxidase-catalyzed iodination and the cells were then infected with VSV. Approximately 2% of the cell surface ¹²⁵1 radioactivity was incorporated into particles which co-purify with normal, infectious virions by both velocity and equilibrium gradient centrifugation and which are precipitated by antiserum specific for the VSV glycoprotein. Control experiments establish that these ¹²⁵I-labeled particles are not cell debris or cellular material which aggregate with or adhere to VSV virions. VSV virions contain only a subset of the 10–15 normal ¹²⁵1-labeled cell surface polypeptides resolved by SDS gel electrophoresis; VSV grown in L cells and Vero cells incorporate different host polypeptides. In a second approach, Vero cells were labeled with ³⁵S-methione, then infected with VSV. Two predominant host polypeptides (molecular weights 110,000 and 20,000) were incorporated into VSV virions. These proteins, like VSV G protein, are exposed to the surface of the virion. They co-migrate with the major incorporated ¹²⁵1 host polypeptides. These host proteins are present in approximately 10 and 80 copies, respectively, per virion. Specific incorporation of host polypeptides into VSV virions does not require the presence of viral glycoprotein. This was shown by use of a ts VSV mutant defective in maturation of VSV G protein to the cell surface. Budding from infected cells are noninfectious particles which contain all the viral proteins except for G; these particles contain the same proportion and spectrum of ¹²⁵1-labeled host surface polypeptides as do wild-type virions. These results extend previous conclusions implicating the submembrane viral matrix protein, or the viral nucleocapsid, as being of primary importance in selecting cell surface proteins for incorporation into budding VSV virions.