Although the presence of glycogen in platelets was established in the 1960s, its importance to specific functions (i.e., activation, secretion, aggregation, and clot contraction) remains unclear. Patients with glycogen storage disease often present with increased bleeding and glycogen phosphorylase (GP) inhibitors, when used as treatments for diabetes, induce bleeding in preclinical studies suggesting some role for this form of glucose in hemostasis. In the present work, we examined how glycogen mobilization affects platelet function using GP inhibitors (CP316819 and CP91149) and a battery of ex vivo assays. Blocking GP activity increased glycogen levels in resting and thrombin-activated platelets and inhibited platelet secretion and clot contraction, with minimal effects on aggregation. Seahorse energy flux analysis and metabolite supplementation experiments suggested that glycogen is an important metabolic fuel whose role is affected by platelet activation and the availability of external glucose and other metabolic fuels. Our data shed light on the bleeding diathesis in glycogen storage disease patients and offer insights into the potential effects of hyperglycemia on platelets.
Keywords: Bioenergetics; glycogen; metabolism; platelets.
What did we know? Activated platelets transition from a low-energy-requiring, resting state to a high-energy-demanding state.Platelet glycogen is degraded upon activation.Glycogen storage disorders and glycogen phosphorylase inhibitors are associated with bleeding.What did we discover? Glycogen turnover occurs in resting platelets and its degradation is important for platelet functions.Glycogen phosphorylase inhibitors block secretion and clot contraction of which the latter can be reversed with alternative metabolic fuels.Glucose derived from glycogen may be routed through TCA/OxPhos versus aerobic glycolysis.What is the impact? Glycogen breakdown contributes to the high energy requirements of platelet function.Our work offers insights into potential energy sources in activated platelets.