Abstract
Bidirectional signaling is an essential feature of alphaIIbbeta3 function. The alphaIIb cytoplasmic domain negatively regulates beta3-mediated inside-out signaling, but little is known about the regulation of alphaIIb-mediated outside-in signaling. We show that alphaIIb-mediated outside-in signaling is enhanced in platelets of a patient lacking the terminal 39 residues of the beta3 cytoplasmic tail. This enhanced signaling was detected as thromboxane A(2) (TxA(2)) production and granule secretion, and required ligand cross-linking of alphaIIbbeta3 and platelet aggregation. This outside-in signaling was specifically inhibited by a palmitoylated version of a beta3 peptide corresponding to cytoplasmic domain residues R724-R734. Unlike the palmitoylated peptide, the nonpalmitoylated beta3 peptide could not cross the platelet membrane and did not inhibit this outside-in signaling. The physiologic relevance of this beta3-mediated negative regulation of alphaIIb outside-in signaling was demonstrated in normal platelets treated with the palmitoylated peptide and a physiologic agonist. Binding of alphaIIbbeta3 complexes to immobilized peptides demonstrated that a peptide corresponding to beta3 residues R724-R734 appears to bind to an alphaIIb cytoplasmic domain peptide containing residues K989-D1002, but not to control peptides. These results demonstrate that alphaIIb-mediated outside-in signaling resulting in TxA(2) production and granule secretion is negatively regulated by a sequence of residues in the membrane distal beta3 cytoplasmic domain sequence RKEFAKFEEER.