非特异性肌细胞膜阳离子通道对于恶性高热的发病机制至关重要。

Nonspecific sarcolemmal cation channels are critical for the pathogenesis of malignant hyperthermia.

机构信息

Department of Physiology and Biophysics, Virginia Commonwealth University, Richmond, Virginia, USA.

出版信息

FASEB J. 2013 Mar;27(3):991-1000. doi: 10.1096/fj.12-218354. Epub 2012 Nov 16.

DOI:10.1096/fj.12-218354

PMID:23159934

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3574284/

Abstract

Malignant hyperthermia (MH) susceptibility has been attributed to a leaky sarcoplasmic reticulum (SR) caused by missense mutations in RYR1 or CACNA1S, and the MH crisis has been attributed solely to massive self-sustaining release of Ca(2+) from SR stores elicited by triggering agents. Here, we show in muscle cells from MH-RyR1(R163C) knock-in mice that increased passive SR Ca(2+) leak causes an enlarged basal influx of sarcolemmal Ca(2+) that results in chronically elevated myoplasmic free Ca(2+) concentration ([Ca(2+)]i) at rest. We discovered that Gd(+3) and GsMTx-4 were more effective than BTP2 or expression of the dominant-negative Orai1(E190Q) in reducing both Ca(2+) entry and [Ca(2+)]i, implicating a non-STIM1/Orai1 SOCE pathway in resetting resting [Ca(2+)]i. Indeed, two nonselective cationic channels, TRPC3 and TRPC6, are overexpressed, and [Na]i is chronically elevated in MH-RyR1(R163C) muscle cells. [Ca(2+)]i and [Na(+)]i are persistently elevated in vivo and further increased by halothane in MH-RyR1(R163C/WT) muscle. These increases are markedly attenuated by local perfusion of Gd(+3) or GsMTx-4 and completely suppressed by dantrolene. These results contribute a new paradigm for understanding MH pathophysiology by demonstrating that nonselective sarcolemmal cation channel activity plays a critical role in causing myoplasmic Ca(2+) and Na(+) overload both at rest and during the MH crisis.-Eltit, J. M., Ding, X., Pessah, I. N., Allen, P. D., Lopez, J. R. Nonspecific sarcolemmal cation channels are critical for the pathogenesis of malignant hyperthermia.

摘要

恶性高热（MH）易感性归因于肌浆网（SR）渗漏，这是由 RYR1 或 CACNA1S 的错义突变引起的，而 MH 危象则完全归因于触发剂引发的来自 SR 储存库的大量自我维持的 Ca（2+）释放。在这里，我们在 MH-RyR1（R163C）基因敲入小鼠的肌肉细胞中表明，增加的被动 SR Ca（2+）渗漏导致肌浆膜 Ca（2+）的基础内流增加，从而导致静息时细胞质游离 Ca（2+）浓度[Ca（2+）]i 持续升高。我们发现 Gd（+3）和 GsMTx-4 比 BTP2 或显性负性 Orai1（E190Q）的表达更有效地减少 Ca（2+）内流和[Ca（2+）]i，这表明非 STIM1/Orai1 的 SOCE 途径在重置静息[Ca（2+）]i 中起作用。事实上，两种非选择性阳离子通道 TRPC3 和 TRPC6 过表达，并且 MH-RyR1（R163C）肌肉细胞中的[Na+]i 慢性升高。[Ca（2+）]i 和[Na+]i 在体内持续升高，并在 MH-RyR1（R163C/WT）肌肉中进一步被氟烷增加。这些增加被 Gd（+3）或 GsMTx-4 的局部灌注显著减弱，并被 dantrolene 完全抑制。这些结果通过证明非选择性肌浆膜阳离子通道活性在静息时和 MH 危象期间均导致细胞质 Ca（2+）和 Na（+）过载方面发挥关键作用，为理解 MH 病理生理学提供了一个新的范例。-Eltit, J. M., Ding, X., Pessah, I. N., Allen, P. D., Lopez, J. R. 非特异性肌浆膜阳离子通道对于恶性高热发病机制至关重要。

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J Biol Chem. 2011 Jan 7;286(1):99-113. doi: 10.1074/jbc.M110.153247. Epub 2010 Oct 26.

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