Tac antigen, the receptor for human interleukin 2 (IL-2), contains in its intracytoplasmic region a serine residue (Ser-247) that is seemingly the predominant site of protein kinase C-mediated phosphorylation. A number of studies on growth factor receptors have suggested the importance of phosphorylation in receptor structure, function, and regulation. In this study, we generated site-directed mutations in the Tac antigen cDNA to generate mutant receptors in which Ser-247 or Thr-250, a probable site of minor phosphorylation, was replaced with another amino acid that is not accessible to phosphorylation. Study of the expression of these mutant genes in a T-lymphoid cell line has provided no evidence as to the essential role of the above-mentioned residues in determining the degree of receptor affinity, its ability for signal transduction, and phorbol ester-mediated regulation of the receptor. Our results strongly suggest the existence of an IL-2 receptor "complex" in which the Tac antigen is associated with another molecule(s) that is involved in receptor structure, function, and regulation.