Selective binding of shc-SH2 domain to tyrosine-phosphorylated zeta but not gamma-chain upon CD16 ligation on human NK cells.

Fc gamma RIII (CD16) is a hetero-oligomeric receptor composed of a ligand-binding alpha subunit associated with homo- or heterodimers of the TCR zeta- and Fc epsilon RI gamma-chains. We have previously demonstrated that CD16 ligation promotes complex formation between tyrosine-phosphorylated shc and Grb2, leading to activation of ras signaling pathway in human NK cells. Here we report that CD16 engagement induces rapid shc association with the tyrosine-phosphorylated receptor complex in human NK cells. In vitro binding studies demonstrate that this interaction is mediated by the shc-SH2 domain, and immunodepletion experiments indicate that the zeta- but not the gamma-chain has the capability to mediate this association. Jurkat cell clones expressing CD16-zeta or -gamma homodimers have been used to gain more information about the mechanism of shc/CD16 association. Our data show that, while engagement of both receptors induces tyrosine phosphorylation of shc and Grb2 recruitment, shc-SH2/receptor complex association is evident only in CD16-zeta but not in CD16-gamma transfectants. Overall, our data demonstrate that the adaptor protein shc can be recruited to the activated CD16 complex by interaction with tyrosine-phosphorylated zeta-chain in a SH2-dependent manner. These results also provide further support to the notion that zeta- and gamma-chains might couple to different biochemical pathways.