Membrane-Interactive Phospholipids Inhibit HIV Type 1-Induced Cell Fusion and Surface gp160/gp120 Binding to Monoclonal Antibody

Abstract

Membrane-interactive phospholipids (PLs), previously evaluated for activity against HIV-1 in vitro, are known to affect late steps in viral replication. Studies were done to determine the effects of PL analogs on posttranslational processing of HIV-1 proteins, binding of viral surface gp160/gp120 to CD4 receptor, and HIV-1-induced cell fusion. Results of this investigation indicated that PL alone (1-octadecanamido-2-ethoxypropyl-rac-3-phosphocholine, CP-51) and PL-AZT conjugate (1-octadecanamido-2-ethoxypropyl-rac-3-phospho-3′-azido-3′-deoxythymidine, CP-92) have no effect on HIV-1-induced syntheses or processing of gp160/gp120, pr51, p24, or p17 (including myristoylation) in infected cells. Progeny HIV-1 particles made in CP-92-treated H9IIIB cells contained gp120, pr51, and p24; however, these virus particles had reduced capacity to bind to CD4⁺ cells. Both CP-51 and CP-92 inhibited syncytium (cell fusion) formation between treated HIV-1-infected cells and uninfected CD4⁺ cells, and, they reduced HIV-1 gp160/gp120 binding to CD4⁺ cells and monoclonal antibody. These results suggest that anti-HIV-1 activity of PL compounds involves alteration of cell surface membranes and viral envelopes. Phospholipid compounds are a novel class of membrane interactive compounds with potential use in blocking the spread of HIV-1 infection and pathogenesis in AIDS.