Showing papers by "William C. Hahn published in 1992"

Overlapping but nonidentical binding sites on CD2 for CD58 and a second ligand CD59

Abstract: The interaction of the T cell glycoprotein CD2 with one ligand, CD58, contributes to T cell function. We have identified CD59, a glycoprotein with complement-inhibitory function, as a second physiological ligand for CD2. Antibodies to CD59 inhibit CD2-dependent T cell activation in murine T cell hybridomas expressing human CD2. In an in vitro binding assay with purified CD58 and CD59, CD2+ cells bind not only immobilized CD58 but also CD59. With two complementary approaches, it was demonstrated that the binding sites on CD2 for CD58 and CD59 are overlapping but nonidentical. These observations suggest that direct interactions between CD2 and both CD58 and CD59 contribute to T cell activation and adhesion.

A distinct cytoplasmic domain of CD2 regulates ligand avidity and T-cell responsiveness to antigen.

Abstract: The T-cell glycoprotein CD2 not only contributes to intercellular adhesion but also plays a direct role in T-cell activation. Here we demonstrate that the interaction of CD2 with its ligand lymphocyte function-associated antigen 3 (CD58) is regulated by T-cell receptor-CD3 signaling. T-cell receptor-CD3 crosslinking by specific antigen or monoclonal antibodies rapidly increases the avidity with which cell-surface CD2 binds immunoaffinity-purified CD58. Mutational analysis of the CD2 cytoplasmic domain demonstrates that the carboxyl-terminal asparagine is essential for T-cell receptor-induced changes in CD2 avidity but is not essential for CD2-mediated signaling, establishing that the cytoplasmic portion of CD2 consists of distinct functional domains. Furthermore, cell lines expressing CD2 molecules incapable of avidity regulation exhibit a marked deficiency in an antigen-specific response. Thus, the regulation of CD2 adhesiveness has a profound effect on the ability of CD2 to enhance antigen responsiveness. These observations demonstrate that adhesion strengthening resulting from increased CD2 avidity contributes directly to T-cell responsiveness independently of CD2-mediated signal transduction.