Our previous studies have shown that the HIV-1 Nef Ag is expressed, at least in part, on the surface of infected cells. We demonstrated this by using membrane immunofluorescence and flow cytometry with Nef murine mAbs. To identify the domain of Nef exposed on the cell surface, epitope mapping of these and a new mAb was performed by ELISAs by using several recombinant truncated Nef fusion proteins and synthetic peptides. The results showed that mAbs F1, E7, E9, and 4H4 recognized Nef epitopes located at amino acid residues 148-157, 192-206, 158-206, and 1-33, respectively. The intensity of cell surface Nef staining was stronger with mAbs E7 and E9 than with F1, and there was no staining by 4H4, which indicates that the carboxyl-terminal region of Nef is predominantly exposed on the surface of HIV-1-infected T cell lines and PBMC. This surface Nef domain displayed high affinity for the surface of uninfected CD4+ T cells, because the binding of a soluble form of recombinant Nef protein to the cell surface was specifically blocked by the E7 and E9 mAbs or by synthetic peptides that contained the carboxyl-terminal region of Nef. In addition, syncytium formation between infected and uninfected cells also was specifically reduced by the same mAbs or peptides. Thus, the cell surface domain of Nef seems to play an important role in the interaction between HIV-1-infected and CD4+ uninfected T cells.