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RECEPTORS AND SIGNAL TRANSDUCTION

Pathological shear stress directly regulates platelet _IIb3 signaling

¹Michael E. DeBakey Veterans Affairs Medical Center, Baylor College of Medicine and Rice University, Houston, Texas; and ²The Wihuri Research Institute, Helsinki, Finland

Submitted 1 November 2005 ; accepted in final form 30 June 2006

Integrin mechanotransduction is a ubiquitous biological process. Mechanical forces are transduced transmembranously by an integrin's ligand-bound extracellular domain through its -subunit's cytoplasmic domain connected to the cytoskeleton. This often culminates in the activation of tyrosine kinases directing cell responses. The delicate balance between hemostasis and thrombosis requires exquisitely fine-tuned integrin function, and balance is maintained in vivo despite that the major platelet integrin _IIb3 is continuously subjected to frictional or shearing forces generated by laminar blood flow. To test the hypothesis that platelet function is regulated by the direct effects of mechanical forces on _IIb3, we examined _IIb3/cytoskeletal interactions in human platelets exposed to shear stress in a cone-plate viscometer. We observed that -actinin, myosin heavy chain, and Syk coimmunoprecipitate with _IIb3 in resting platelets and that 120 dyn/cm² shear stress leads to their disassociation from _IIb3. Shear-induced disassociation of -actinin and myosin heavy chain from the ₃ tail is unaffected by blocking von Willebrand factor (VWF) binding to glycoprotein (Gp) Ib-IX-V but abolished by blocking VWF binding to _IIb3. Syk's disassociation from ₃ is inhibited when VWF binding to either GpIb-IX-V or _IIb3 is blocked. Shear stress-induced phosphorylation of SLP-76 and its association with tyrosine-phosphorylated adhesion and degranulation-promoting adapter protein are inhibited by blocking ligand binding to _IIb3 but not by blocking ligand binding to GpIb-IX-V. Chinese hamster ovary cells expressing _IIb3 with ₃ truncated of its cytoskeletal binding domains demonstrate diminished shear-dependent adhesion and cohesion. These results support the hypothesis that shear stress directly modulates _IIb3 function and suggest that shear-induced _IIb3-mediated signaling contributes to the regulation of platelet aggregation by directing the release of constraining cytoskeletal elements from the ₃-tail.

platelets; mechanoreceptor; integrin; shear stress; signal transduction