Ligand-dependent selection of the receptor gene: segregation of IL-2 binding activity and anti-Tac reactivity by a single amino acid alteration in the Tac antigen (p55).

Abstract

The Tac antigen (p55, CD25) is a 55 kDa glycoprotein that binds interleukin 2 at low affinity (Kd congruent to 10-50 nM). Expression of the Tac antigen is induced in the activated human T cells to constitute the functional, high-affinity IL-2 receptors (IL-2Rs) (Kd congruent to 10 pM) in conjunction with p70-75. A monoclonal antibody, anti-Tac, recognizes this molecule and inhibits the binding of IL-2 to both high- and low-affinity IL-2Rs. This observation indicates that IL-2 and anti-Tac binding sites are located close to each other within the Tac molecule. In this report, by utilizing a novel approach, we selected cDNAs encoding the Tac antigen variants whose reactivity with anti-Tac is greatly reduced, while retaining their IL-2 binding activity. Each of the mutant cDNAs contained a point (G----A) mutation resulting in an amino acid substitution at the particular amino-terminal portion of the Tac molecule (Asp-4). These results demonstrate that N-terminal amino acid Asp-4 is involved in the epitope recognized by anti-Tac, and that IL-2 binding site and anti-Tac binding site are structurally separable from each other in the Tac molecule.