Pseudotypes of vesicular stomatitis virus with envelope antigens provided by murine mammary tumor virus

Abstract

Infection of two mouse mammary carcinoma cell lines with vesicular stomatitis virus (VSV) resulted in the formation of at least two types of particles containing the VSV genome but expressing different envelope characteristics (VSV pseudotypes). One of these VSV pseudotypes was infectious for a cell line derived from normal mouse mammary epithelial cells and mouse embryo cells but noninfectious for 3T3 cells, mink lung cells, and Vero cells. If mouse mammary tumor cells were treated with dexamethason some days prior to infection with VSV, the titer of this pseudotype was significantly increased. In contrast, the second pseudotype was infectious for mink cells, but not for the other cell lines tested, and the titer of this second pseudotype was unaffected by the presence of dexamethasone. The first pseudotype was found to be almost completely neutralized by anti-murine mammary tumor virus (MuMTV) serum whereas the second pseudotype was only partially neutralized at a higher antiserum concentration. Neither pseudotype showed the neutralization, host range, or interference properties of either ecotropic or xenotropic murine C-type viruses. These results suggest that the first pseudotype is VSV(MuMTV). The other pseudotype is less well defined but conceivably may represent a xenotropic MuMTV. In the course of these studies, a filterable agent was observed in GR mammary carcinoma cultures that reactivated the infectivity of VSV neutralized by antiserum. This agent was transmissible to mink cells.