Synthetic peptides allow discrimination of structural features of CD4(81-92) important for HIV-1 infection versus HIV-1-induced syncytium formation.

Benzylated peptides with a primary amino acid sequence corresponding to either human CD4(81-92) (#18), or chimpanzee CD4(81-92) (#18C), were equipotent inhibitors of human immunodeficiency virus type 1 (HIV-1) infection of CD4+ cells and high-affinity binding of 125I-gp120 to CD4+ cells. The chimpanzee-based CD4(81-92) peptide, however, which differs from the human peptide by a single amino acid substitution (E for G) at position 87, was considerably less potent than the human CD4(81-92)-based peptide congener to inhibit HIV-1-induced cell-cell fusion. These data suggest that a portion of the CD4 molecule contained within the sequence CD4(81-92) is involved in binding gp120 during both HIV-1 infection and HIV-1-induced syncytium formation in human cells, but that the presence of a glutamic acid at position 87 in this sequence is more critical for the CD4/gp120 interaction leading to syncytium formation than for the CD4/gp120 interaction leading to primary infection of CD4-positive cells. The region CD4(81-92) may critically contribute to CD4-mediated HIV-1 pathogenesis in humans, and its alteration might explain the lack of pathogenic sequelae of HIV-1 infection in chimpanzees.