An In Vitro Assay to Study Platelet Migration Using RGD-Functionalized Avidin-Biotin Tethers.

Despite being anucleated cell fragments, platelets are now widely recognized for their multifaceted abilities. Not only do they form blood clots to prevent bleeding after injury, but they also fight infections and maintain vascular integrity during inflammatory diseases. While hemostatic plugs require the collective activation and aggregation of platelets, their role in protecting inflamed blood vessels is performed at the single-cell level. In this context, recent data have shown that platelets can migrate autonomously, a process dependent on the mechanosensing of their adhesive environment. Here, a detailed protocol for imaging single platelet migration is presented, utilizing a three-layer coating system consisting of a poly-L-lysine graft poly(ethylene glycol) (PLL-PEG)-biotin backbone (1), a fluorescent avidin linker (2), and biotin-cyclic Arg-Gly-Asp (cRGD) (3) as the platelet integrin-binding motif. This reductionist approach allows precise control of substrate adhesion properties and serves as a simple, standardized in vitro assay to study the mechanisms underlying platelet migration. The results indicate that migrating platelets binding to cRGD exert forces capable of disrupting the avidin-biotin bond. Furthermore, the density of biotin-cRGD significantly influences both platelet spreading and migration.