Defects in TRPM7 channel function deregulate thrombopoiesis through altered cellular Mg(2+) homeostasis and cytoskeletal architecture

TRPM7通道功能缺陷通过改变细胞内Mg(2+)稳态和细胞骨架结构,导致血小板生成失调。

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作者:Simon Stritt ,Paquita Nurden ,Remi Favier ,Marie Favier ,Silvia Ferioli ,Sanjeev K Gotru ,Judith M M van Eeuwijk ,Harald Schulze ,Alan T Nurden ,Michele P Lambert ,Ernest Turro ,Stephanie Burger-Stritt ,Masayuki Matsushita ,Lorenz Mittermeier ,Paola Ballerini ,Susanna Zierler ,Michael A Laffan ,Vladimir Chubanov ,Thomas Gudermann ,Bernhard Nieswandt ,Attila Braun
期刊:Nature Communications影响因子:14.700
时间:2016起止号:2016 Mar 29:7:11097.
doi:10.1038/ncomms11097研究方向: 细胞生物学
细胞类型: 血小板

Abstract

Mg(2+) plays a vital role in platelet function, but despite implications for life-threatening conditions such as stroke or myocardial infarction, the mechanisms controlling [Mg(2+)]i in megakaryocytes (MKs) and platelets are largely unknown. Transient receptor potential melastatin-like 7 channel (TRPM7) is a ubiquitous, constitutively active cation channel with a cytosolic α-kinase domain that is critical for embryonic development and cell survival. Here we report that impaired channel function of TRPM7 in MKs causes macrothrombocytopenia in mice (Trpm7(fl/fl-Pf4Cre)) and likely in several members of a human pedigree that, in addition, suffer from atrial fibrillation. The defect in platelet biogenesis is mainly caused by cytoskeletal alterations resulting in impaired proplatelet formation by Trpm7(fl/fl-Pf4Cre) MKs, which is rescued by Mg(2+) supplementation or chemical inhibition of non-muscle myosin IIA heavy chain activity. Collectively, our findings reveal that TRPM7 dysfunction may cause macrothrombocytopenia in humans and mice.

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