Cell surface CD4 inhibits HIV-1 particle release by interfering with Vpu activity

Abstract

One of the hallmarks of human immunodeficiency virus type I (HIV-1) infection is the rapid removal of the viral receptor CD4 from the cell surface. This remarkably efficient receptor interference requires the activity of three separate viral proteins: Env, Vpu, and Nef. We have investigated whether this unusually tight interference on cell surface CD4 expression had a more essential function during the viral life cycle than simply preventing superinfection. We now report that the removal of cell surface CD4 is required for optimal virus production by HIV-1. Indeed, maintenance of CD4 surface expression in infected cells lead to a 3-5-fold decrease in viral particle production. This effect was not due to the formation of intracellular complexes between CD4 and the gp160 viral envelope precursor but instead required the presence of CD4 at the cell surface and was specifically mediated by CD4 but not closely related plasma membrane receptors. The finding that CD4 had no significant effect on particle release by a Vpu-deficient variant indicates that CD4 acts by inhibiting the particle release-promoting activity of Vpu. Co-immunoprecipitation experiments further showed that CD4 and Vpu physically interact at the cell surface, suggesting that CD4 might inhibit Vpu activity by disrupting its oligomeric structure.