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TRPM7 在脑缺血中的作用及在脑卒中药物研发中的潜在靶点

TRPM7 in cerebral ischemia and potential target for drug development in stroke.

机构信息

Department of Physiology, Faculty of Medicine, University of Toronto, 1 King's College Circle, Toronto, Ontario, Canada.

出版信息

Acta Pharmacol Sin. 2011 Jun;32(6):725-33. doi: 10.1038/aps.2011.60. Epub 2011 May 9.

DOI:10.1038/aps.2011.60
PMID:21552293
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4009967/
Abstract

Searching for effective pharmacological agents for stroke treatment has largely been unsuccessful. Despite initial excitement, antagonists for glutamate receptors, the most studied receptor channels in ischemic stroke, have shown insufficient neuroprotective effects in clinical trials. Outside the traditional glutamate-mediated excitotoxicity, recent evidence suggests few non-glutamate mechanisms, which may also cause ionic imbalance and cell death in cerebral ischemia. Transient receptor potential melastatin 7 (TRPM7) is a Ca(2+) permeable, non-selective cation channel that has recently gained attention as a potential cation influx pathway involved in ischemic events. Compelling new evidence from an in vivo study demonstrated that suppression of TRPM7 channels in adult rat brain in vivo using virally mediated gene silencing approach reduced delayed neuronal cell death and preserved neuronal functions in global cerebral ischemia. In this review, we will discuss the current understanding of the role of TRPM7 channels in physiology and pathophysiology as well as its therapeutic potential in stroke.

摘要

寻找有效的治疗中风的药物在很大程度上一直没有成功。尽管最初令人兴奋,但谷氨酸受体拮抗剂,即缺血性中风中研究最多的受体通道,在临床试验中显示出的神经保护作用不足。除了传统的谷氨酸介导的兴奋毒性之外,最近的证据表明,很少有非谷氨酸机制,也可能导致脑缺血中的离子失衡和细胞死亡。瞬时受体电位 melastatin 7(TRPM7)是一种 Ca(2+)可渗透的非选择性阳离子通道,最近作为一种潜在的阳离子内流途径引起了人们的关注,该途径可能与缺血性事件有关。一项体内研究的令人信服的新证据表明,使用病毒介导的基因沉默方法抑制成年大鼠大脑中的 TRPM7 通道可减少全脑缺血后的迟发性神经元细胞死亡并保护神经元功能。在这篇综述中,我们将讨论 TRPM7 通道在生理学和病理生理学中的作用及其在中风中的治疗潜力。

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Silencing TRPM7 promotes growth/proliferation and nitric oxide production of vascular endothelial cells via the ERK pathway.沉默瞬时受体电位阳离子通道M7(TRPM7)可通过细胞外信号调节激酶(ERK)途径促进血管内皮细胞的生长/增殖及一氧化氮生成。
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