PTPε has a critical role in signaling transduction pathways and phosphoprotein network topology in red cells

Protein tyrosine phosphatases (PTPs) are crucial components of cellular signal transduction pathways. Here, we report that red blood cells (RBCs) from mice lacking PTPe (Ptpre2/2) exhibit (i) abnormal morphology; (ii) increased Ca21-activated-K1 channel activity, which was partially blocked by the Src family kinases (SFKs) inhibitor PP1; and (iii) market perturbation of the RBC membrane tyrosine (Tyr-) phosphoproteome, indicating an alteration of RBC signal transduction pathways. Using the signaling network computational analysis of the Tyr-phosphoproteomic data, we identified seven topological clusters.We studied cluster 1 containing Fyn, SFK, and Syk another tyrosine kinase. In Ptpre2/2mouse RBCs, the activity of Fyn was increased while Syk kinase activity was decreased compared to wild-type RBCs, validating the network computational analysis, and indicating a novel signaling pathway, which involves Fyn and Syk in regulation of red cell morphology.