CD22 ASSOCIATES WITH PROTEIN-TYROSINE-PHOSPHATASE 1C, SYK, AND PHOSPHOLIPASE C-GAMMA-1 UPON B-CELL ACTIVATION

Cross-linking B cell antigen receptor (BCR) elicits early signal trans duction events, including activation of protein tyrosine kinases, phos phorylation of receptor components, activation of phospholipase C-gamm a (PLC-gamma), and increases in intracellular free Ca2+. In this artic le, we report that cross-linking the BCR led to a rapid translocation of cytosolic protein tyrosine phosphatase (PTP) 1C to the particulate fraction, where it became associated with a 140-150-kD tyrosyl-phospho rylated protein. Western blotting analysis identified this 140-150-kD protein to be CD22. The association of PTP-1C with CD22 was mediated b y the NH2-terminal Src-homology 2 (SH2) domain of PTP-1C. Complexes of either CD22/PTP-1C/Syk or CD22/ PTP-1C/Syk/PLC-gamma 1 could be isola ted from B cells stimulated by BCR engagement or a mixture of hydrogen peroxide and sodium orthovanadate, respectively. The binding of PLC-g amma 1 and Syk to tyrosyl-phosphorylated CD22 was mediated by the NH2- terminal SH2 domain of PLC-gamma 1 and the COOH-terminal SH2 domain of Syk, respectively. These observations suggest that tyrosyl-phosphoryl ated CD22 may provide the scaffolding to ensure efficient interaction between Syk and PLC-gamma 1 and the activation of PLC-gamma 1 by Syk. The recruitment of PTP-1C to BCR-associated CD22 may downmodulate the activity of this complex by dephosphorylation of CD22, Syk, and/or PLC -gamma 1. Transient expression of CD22 and a null mutant of PTP-1C (PT P-1C(M)) in COS cells resulted in an increase in tyrosyl phosphorylati on of CD22 and its interaction with PTP-1C(M). By contrast, CD22 was n ot tyrosyl phosphorylated or associated with PTP-1C(M) in the presence of wild-type PTP-1C. These results suggest that tyrosyl-phosphorylate d CD22 may be a substrate for PTP-1C or that PTP-1C regulates tyrosyl phosphorylation of CD22.