Abstract 123: Protein Kinase C Theta (PKCθ) Signaling Associated With The Generation Of Procoagulant Platelets Revealed By Phosphoproteomics And Systems Analysis

Abstract

Protein kinase C (PKC) family members integrate platelet activation programs to support hemostasis, and, also drive inflammatory and vascular diseases. While some PKC isoforms have established roles in platelets, roles for PKCθ are less specified. Here, we aim to determine how PKCθ signaling orchestrates platelet function. We prepared washed platelets from human donors for biochemical, physiological and omics studies. Platelet signaling and physiology were studied following stimulation with agonists, including the glycoprotein receptor GPVI agonist crosslinked collagen-related peptide (CRP-XL), and protease activated receptor PAR1 and PAR4 agonists, TRAP6 and AYPGKF-NH 2 . Platelets were treated with inhibitors of PKC family members to study PKC activation mechanisms by Western blot using antisera against specific phosphorylation sites on PKC isoforms and PKC substrates. Phosphoproteomics studies of GPVI and PAR agonist-stimulated platelets quantified significant, site-specific changes in the phosphorylation of PKC isoforms as well as PKC substrates. In addition to established phosphorylation events (e.g., PKCδ Tyr311), we noted a novel, prominent phosphorylation on the C-terminus PKCθ at Ser685. After generating and characterizing antisera specifically reactive to PKCθ phospho-Ser685, Western blot analysis determined that PKCθ Ser685 phosphorylation occurred later following GPVI platelet activation (>5 min) relative to PKCδ Tyr311 phosphorylation and PKC substrate phosphorylation driven by calcium-dependent PKCs. Treatment of platelets with specific PKC inhibitors revealed that PKCα/β, PKCθ, and, to a lesser extent, PKCδ activities all determine PKCθ Ser685 phosphorylation. In parallel, platelet function studies found that inhibition of PKCθ had only minor effects on platelet secretion and aggregation; however, PKCθ inhibition significantly reduced platelet phosphatidylserine exposure - a marker of procoagulant platelet activity - in response to GPVI and PAR agonists. Together, our results suggest that PKCδ and PKCα/β activities drive the phosphorylation of PKCθ Ser685 to support procoagulant platelet generation in a manner that may be blunted by therapeutically relevant small molecule kinase inhibitors.