1. Mechanosensing via a GpIIb/Src/14-3-3ζ axis critically regulates platelet migration in vascular inflammation
- Author
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Rainer Kaiser, Afra Anjum, Lisa Maria Kammerer, Quentin Loew, Anastassia Akhalkatsi, Dario Rossaro, Raphael Escaig, Augustin Droste zu Senden, Ben Raude, Michael Lorenz, Christoph Gold, Kami Pekayvaz, Thomas Brocker, Jan Kranich, Julian Walter Holch, Karsten Spiekermann, Steffen Massberg, Florian Gaertner, and Leo Nicolai
- Subjects
Immunology ,Cell Biology ,Hematology ,Biochemistry - Abstract
Platelets are first responders in thrombosis and hemostasis, but also central players in inflammation. Compared to platelets recruited to thrombi, immune-responsive platelets use distinct effector functions including Arp2/3-dependent migration along adhesive substrate gradients (haptotaxis), which prevents inflammatory bleeding and contributes to host defense. How platelet migration in this context is regulated on a cellular level is incompletely understood. Here, we use time-resolved morphodynamic profiling of individual platelets to show that migration, in contrast to clot retraction, requires anisotropic myosin IIa-activity at the platelet rear which is preceded by polarized actin polymerization at the front to initiate and maintain migration. Polarization of migrating platelets is coordinated by integrin GPIIb-dependent outside-in signaling via Gα13 to trigger tyrosine kinase c-Src/14-3-3ζ-dependent lamellipodium formation and functions independent of soluble agonists or chemotactic signals. Inhibitors of this signaling cascade, including the clinically employed ABL/c-Src inhibitor dasatinib, interfere predominantly with the migratory capacity of platelets, without major impairment of classical platelet functions. In murine inflammation models, this translates to reduced migration of platelets visualized by 4D intravital microscopy, resulting in increased inflammation-associated hemorrhage in acute lung injury. Finally, platelets isolated from dasatinib-treated leukemia patients prone to clinically relevant hemorrhage exhibit prominent migration defects, while other platelet functions are only partially affected. In summary, we define a distinct signaling pathway essential for migration, and provide novel mechanistic insights explaining dasatinib-related platelet dysfunction and bleeding.
- Published
- 2023