A New Approach to Measure Fusion Activity of Cloned Viral Envelope Proteins: Fluorescence Dequenching of Octadecylrhodamine-Labeled Plasma Membrane Vesicles Fusing with Cells Expressing Vesicular Stomatitis Virus Glycoprotein

Abstract

Fusion between fluorescently labeled plasma membrane vesicles (PMV) and cells expressing vesicular stomatitis virus (VSV) glycoprotein (G-protein) was investigated by utilizing a lipid mixing assay based on fluorescence dequenching of octadecyl rhodamine (R18). The PMVs were prepared from Vero cells by hypotonic lysis. The G-protein was expressed on the cell surface either following infection with intact VSV or with an adenovirus vector (AdG12) containing the gene for the G-protein. Fusion was temperature and pH dependent and was inhibited by VSV G-antiserum. The pH dependence of PMV fusion paralleled that observed for VSV-cell fusion and VSV-induced syncytia formation. The kinetics of fusion followed an exponential dependence on time without an observable time lag after lowering pH. These findings indicate that dequenching R18-labeled PMV reliably represents the basic features of fusion of VSV with cells and can be used as a new tool in the study of fusion activity of virus envelope proteins expressed in cells.