AI Article Synopsis
- Initial platelet arrest at arterial walls is initiated by glycoprotein Ibα binding to the A1 domain of von Willebrand factor, particularly at high shear forces.
- The interaction between glycoprotein Ibα and von Willebrand factor strengthens with increased fluid flow, and the study reveals that glycoprotein Ibα can form clusters on platelets under physiological conditions.
- These clusters enhance platelet interaction with von Willebrand factor and depend on the translocation of glycoprotein Ibα to lipid rafts, influenced by arachidonic acid and specific protein binding.
Article Abstract
Initial platelet arrest at the exposed arterial vessel wall is mediated through glycoprotein Ibα binding to the A1 domain of von Willebrand factor. This interaction occurs at sites of elevated shear force, and strengthens upon increasing hydrodynamic drag. The increased interaction requires shear-dependent exposure of the von Willebrand factor A1 domain, but the contribution of glycoprotein Ibα remains ill defined. We have previously found that glycoprotein Ibα forms clusters upon platelet cooling and hypothesized that such a property enhances the interaction with von Willebrand factor under physiological conditions. We analyzed the distribution of glycoprotein Ibα with Förster resonance energy transfer using time-gated fluorescence lifetime imaging microscopy. Perfusion at a shear rate of 1,600 s(-1) induced glycoprotein Ibα clusters on platelets adhered to von Willebrand factor, while clustering did not require von Willebrand factor contact at 10,000 s(-1). Shear-induced clustering was reversible, not accompanied by granule release or αIIbβ3 activation and improved glycoprotein Ibα-dependent platelet interaction with von Willebrand factor. Clustering required glycoprotein Ibα translocation to lipid rafts and critically depended on arachidonic acid-mediated binding of 14-3-3ζ to its cytoplasmic tail. This newly identified mechanism emphasizes the ability of platelets to respond to mechanical force and provides new insights into how changes in hemodynamics influence arterial thrombus formation.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3815184 | PMC |
| http://dx.doi.org/10.3324/haematol.2013.087221 | DOI Listing |
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