Signal transduction in normal and pathological thrombin-stimulated human platelets

Abstract

Human blood platelets stimulated by thrombin undergo very rapid morphological changes, the most characteristic of which are pseudopod formation and granule centralization. These early changes in shape are accompanied by a transient decrease (30%) in phosphatidyl inositol 4,5-biphosphate (PIP 2) which occurs in the first 10 s after thrombin addition. Transient decreases in phosphatidyl inositol 4-phosphate (PIP) and phosphatidyl inositol (PI) occur later (20–30 s). These events lead to the formation of inositol 1,4,5-triphosphate (IP 3) and diacylglycerol (DG) and hence phosphatidate (PA). Two polypeptides are phosphorylated during the same time span: the myosin light chain (P20) and a 43 kDa protein (P43). Concomitant with these molecular changes, platelet ‘release reaction’ occurs, i.e., liberation of the different granule constituents into the external medium: the earliest concerns dense bodies which liberate adenine nucleotides, calcium and serotonin; α-granules then liberate adhesive and specific proteins and are followed by lysosomes which liberate hydrolases. Pathological platelets from patients with inherited disorders, presenting well-characterized and specific defects of either the platelet membrane (GT) or storage granules (GPS and HPS), have also been studied. The results obtained lead to the following conclusions: (1) the transducing system is normal in platelets unable to aggregate; (2) phosphorylation of P20 and P43 proteins can be complete with impaired release; and (3) when platelets lack α-granules the transducing system as well as the release of other granule populations are impaired. These results evidence the relationship between the absence of intraplatelet components and metabolic events.