Targeted disruption of the tyrosine phosphatase PTPα leads to constitutive downregulation of the kinases Src and Fyn

Abstract

A role for the receptor-like protein tyrosine phosphatase α (PTPα) in regulating the kinase activity of Src family members has been proposed because ectopic expression of PTPα enhances the dephosphorylation and activation of Src and Fyn [1–3]. We have generated mice lacking catalytically active PTPα to address the question of whether PTPα is a physiological activator of Src and Fyn, and to investigate its other potential functions in the context of the whole animal. Mice homozygous for the targeted PTPα allele (PTPα−/−) and lacking detectable PTPα protein exhibited no gross phenotypic defects. The kinase activities of Src and Fyn were significantly reduced in PTPα−/− mouse brain and primary embryonic fibroblasts, and this correlated with enhanced phosphorylation of the carboxy-terminal regulatory Tyr527 of Src in PTPα−/− mice. Thus, PTPα is a physiological positive regulator of the tyrosine kinases Src and Fyn. Increased tyrosine phosphorylation of several unidentified proteins was also apparent in PTPα−/− mouse brain lysates. These may be PTPα substrates or downstream signaling proteins. Taken together, the results indicate that PTPα has a dual function as a positive and negative regulator of tyrosine phosphorylation events, increasing phosphotyrosyl proteins through activation of Src and Fyn, and directly or indirectly removing tyrosine phosphate from other unidentified proteins.