Acetylcholine inhibits platelet activation and regulates hemostasis

Abstract

AbstractPlatelets are key mediators of thrombosis. Many agonists of platelet activation are known, but there are fewer identified endogenous inhibitors of platelets, such as prostacyclin and nitric oxide (NO). Acetylcholinesterase inhibitors such as donepezil can cause bleeding in patients, but the underlying mechanisms are not well understood. We hypothesized that acetylcholine is an endogenous inhibitor of platelets.We measured the effect of acetylcholine or analogues of acetylcholine upon human platelet activation ex vivo. We characterized expression of components of the acetylcholine signaling pathway in human platelets. We tested the effect of a subunit of the acetylcholine receptor, CHRNA7, on acetylcholine signaling in platelets. Acetylcholine and analogues of acetylcholine inhibited platelet activation, as measured by P-selectin translocation and GPIIbIIIA conformational changes. Conversely, we found that antagonists of the acetylcholine receptor such as pancuronium enhance platelet activation. Furthermore, drugs inhibiting acetylcholinesterase such as donepezil also inhibit platelet activation, suggesting that platelets release acetylcholine. We found that NO mediates acetylcholine inhibition of platelets. Human platelets express members of the acetylcholine signaling pathway includingCHRNA2, CHRNA7, CHRNB1, andACHE. Platelets from mice lackingChrna7are hyperactive when stimulated by thrombin and resistant to inhibition by acetylcholine. Furthermore, acetylcholinesterase inhibitors prolonged bleeding in wild-type mice. Knockout mice lackingChrna7subunits of the acetylcholine receptor display prolonged bleeding as well.Our data suggest that acetylcholine is an endogenous inhibitor of platelet activation. The cholinergic system may be a novel target for anti-thrombotic therapies.