大剂量二甲双胍降低糖尿病小鼠闭塞性动脉血栓形成的易感性。

Journal of pharmacy and pharmacology research Pub Date : 2023-01-01 Epub Date: 2023-10-16
Roberto I Mota Alvidrez, Gowtham K Annarapu, Amudan J Srinivasan, Zeyu Liu, Hamza O Yazdani, Deidre Nolfi-Donegan, Richard L Simmons, Sruti Shiva, Matthew D Neal
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引用次数: 0

摘要

简介:二甲双胍是糖尿病(DM)最常用的处方药。二甲双胍已显示降低平均血小板体积,具有良好的抗血小板作用。高剂量的二甲双胍也与高凝有关。我们假设二甲双胍会通过改变血小板激活和线粒体生物能量学来保护糖尿病小鼠免于闭塞性动脉血栓形成。方法:采用低剂量链脲佐菌素诱导DM,以非DM(健康)小鼠为对照。给药组或二甲双胍组每天2次灌胃,连续7天。观察三氯化铁(FeCl3)动脉血栓形成及尾出血时间。评估全血聚集、血小板活化/粘附和线粒体生物能量学。结果:二甲双胍可降低糖尿病小鼠动脉血栓形成的易感性。血小板生物能量学显示糖尿病小鼠血小板线粒体呼吸增加,但二甲双胍治疗组无差异。在非糖尿病(健康)小鼠中,二甲双胍调节adp依赖性血小板粘附增加。非糖尿病(健康)小鼠,二甲双胍缩短出血时间和更快的血栓闭塞。二甲双胍还增加了非糖尿病(健康)小鼠血小板线粒体最大呼吸量和备用呼吸量。结论:二甲双胍调节糖尿病小鼠血小板生物能量和adp介导的血小板功能,减轻动脉血栓形成的易感性。未来的研究将评估临床上相关剂量的二甲双胍调节糖尿病血小板的血栓形成功能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
High Dose of Metformin Decreases Susceptibility to Occlusive Arterial Thrombosis in Diabetic Mice.

Introduction: Metformin is the most prescribed medication in Diabetes Mellitus(DM). Metformin has shown to decrease mean platelet volume, with promising antiplatelet effects. High doses of Metformin have also been associated with hypercoagulation. We hypothesize that Metformin will protect DM mice from occlusive arterial thrombus formation by altering platelet activation and mitochondrial bioenergetics.

Methods: DM was developed by low dose of Streptozotocin, non-DM (healthy) mice are controls. Either vehicle or Metformin was administered twice daily via oral gavage for 7-days. Ferric chloride (FeCl3) arterial thrombosis and tail bleeding time were performed. Whole blood aggregometry, platelet activation/adhesion and mitochondrial bioenergetics were evaluated.

Results: Metformin decreased susceptibility of DM mice to arterial thrombosis. Platelet bioenergetics show DM mice have increased platelet mitochondrial respiration, but no differences were observed with Metformin treatment. In non-DM (healthy) mice, Metformin modulated ADP-dependent increase in platelet adhesion. Non-DM (healthy) mice, Metformin shortens bleeding time with faster thrombotic occlusion. Metformin also increased platelet mitochondrial maximal respiration and spare respiratory capacity uniquely in non-DM (healthy) mice.

Conclusion: Metformin regulates platelet bioenergetics and ADP-mediated platelet function in DM mice which attenuates susceptibility to arterial thrombosis. Future studies will evaluate clinically relevant doses of Metformin that regulates thrombotic function in diabetic platelets.

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