Partial deletions of the cytoplasmic domain of CD2 result in a partial defect in signal transduction.

Abstract

CD2 (T11, the T cell erythrocyte receptor or the SRBC receptor), a nonpolymorphic 47- to 55-kDa glycoprotein, appears to play a role in T lymphocyte adhesion, signal transduction, and differentiation. Pairs of anti-CD2 mAb induce T cell proliferation, suggesting that CD2 may be an Ag-independent pathway of T cell activation. We have expressed the human CD2 and a number of cytoplasmic domain deletion mutants of CD2 in an Ag-reactive murine hybridoma. We have previously shown that a cytoplasmic domain deletion mutant, CD2 delta B, in which the carboxyl-terminal 100 amino acids have been deleted, is no longer capable of signaling through CD2. Here we have expressed a second cytoplasmic domain deletion mutant, CD2 delta S, in which the terminal 41 amino acids have been removed, including the region with greatest conservation between the mouse, rat, and human species. CD2 delta S+ hybridomas were able to respond to Ag and to LFA-3 plus an anti-CD2 mAb. Although the CD2 delta S+ hybridomas responded comparably to the wild-type CD2+ hybridomas to certain pairs of anti-CD2 mAb (e.g., MT110 + 9-1 mAb), these CD2 delta S+ hybridomas were markedly deficient in their ability to respond to other pairs of stimulatory anti-CD2 mAb (e.g., 9.6 + 9-1 mAb). These data suggest that the cytoplasmic domain may have several functional regions, as partial deletions of the cytoplasmic domain appear to result in partial defects in signal transduction.