Platelet Spreading and Clot Retraction are Regulated by two Distinct αIIbβ3 Outside-in Signaling Pathways.

Abstract

Bi-directional signaling through platelet integrin αIIbβ3 is essential in hemostasis and thrombosis. In quiescent platelets αIIbβ3 is in a low-affinity ligand binding state. However, upon platelet activation by agonists through inside-out signaling, a rapid switch in the conformation of the integrin results in a high affinity ligand binding state capable of binding soluble fibrinogen. Ligand binding to the αIIbβ3 induces a signaling termed outside-in signaling that regulate platelet spreading and clot retraction. These events are often interchangeably used to represent outside-in signaling pathway. Using pharmacological inhibitors of known signaling molecules that have been implicated to regulate outside-in signaling, we assessed human platelet spreading and clot retraction. We found that inhibition of PI3K, PLC, PKC, and FAK strongly attenuated both platelet spreading and clot retraction suggesting that they are essential for both clot retraction and platelet spreading. Whereas inhibition of Rac1, ROCK, p38, and MEK did not affect platelet spreading but significantly delayed clot retraction suggesting that these signaling molecules do not participate in platelet spreading. Interestingly, Src family kinases (SFKs) are required for platelet spreading and FAK activation but suppresses clot retraction since their inhibition causes faster clot retraction. Thus, it becomes evident that platelet spreading, and clot retraction are differently regulated through αIIbβ3 outside-in signaling and should not be used interchangeably as readout for αIIbβ3 outside-in signaling assessment. Significance Statement Current anti-platelet drugs have increased risk of bleeding and low efficacy. There is an increased effort to identify novel anti-platelet agents that have improved efficacy with reduced risk of bleeding. It is increasingly felt that inhibition of αIIbβ3-induced outside-in signaling may inhibit thrombosis without compromising hemostasis. However, the signaling entities regulating outside-in signaling is poorly understood. Our work included in this manuscript delineates the distinct signaling pathways involved in outside-in signaling and identify potential novel targets for intervention of thrombosis.