Linda Labberton scite author profile

Polyphosphate is an inorganic polymer that can potentiate several interactions in the blood coagulation system. Blood platelets contain polyphosphate, and the secretion of platelet-derived polyphosphate has been associated with increased thrombus formation and activation of coagulation factor XII. However, the small polymer size of secreted platelet polyphosphate limits its capacity to activate factor XII in vitro. Thus, the mechanism by which platelet polyphosphate contributes to thrombus formation remains unclear. Using live-cell imaging, confocal and electron microscopy, we show that activated platelets retain polyphosphate on their cell surface. The apparent polymer size of membrane-associated polyphosphate largely exceeds that of secreted polyphosphate. Ultracentrifugation fractionation experiments revealed that membrane-associated platelet polyphosphate is condensed into insoluble spherical nanoparticles with divalent metal ions. In contrast to soluble polyphosphate, membrane-associated polyphosphate nanoparticles potently activate factor XII. Our findings identify membrane-associated polyphosphate in a nanoparticle state on the surface of activated platelets. We propose that these polyphosphate nanoparticles mechanistically link the procoagulant activity of platelets with the activation of coagulation factor XII.

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Plasma contact system activation drives anaphylaxis in severe mast cell–mediated allergic reactions

Sala‐Cunill

Björkqvist

Senter

et al. 2015

Journal of Allergy and Clinical Immunology

130

141

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The polyphosphate–factor XII pathway drives coagulation in prostate cancer-associated thrombosis

et al. 2015

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Linda Labberton

Polyphosphate nanoparticles on the platelet surface trigger contact system activation

Plasma contact system activation drives anaphylaxis in severe mast cell–mediated allergic reactions

The polyphosphate–factor XII pathway drives coagulation in prostate cancer-associated thrombosis

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