[Na⁺]i过载心肌细胞的动作电位和收缩性变化：一项模拟研究

Action potential and contractility changes in [Na(+)](i) overloaded cardiac myocytes: a simulation study.

作者信息

Faber G M, Rudy Y

机构信息

Cardiac Bioelectricity Research and Training Center and Department of Biomedical Engineering, Case Western Reserve University, Cleveland, Ohio 44106-7207 USA.

出版信息

Biophys J. 2000 May;78(5):2392-404. doi: 10.1016/S0006-3495(00)76783-X.

DOI:10.1016/S0006-3495(00)76783-X

PMID:10777735

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1300828/

Abstract

Sodium overload of cardiac cells can accompany various pathologies and induce fatal cardiac arrhythmias. We investigate effects of elevated intracellular sodium on the cardiac action potential (AP) and on intracellular calcium using the Luo-Rudy model of a mammalian ventricular myocyte. The results are: 1) During rapid pacing, AP duration (APD) shortens in two phases, a rapid phase without Na(+) accumulation and a slower phase that depends on Na(+). 2) The rapid APD shortening is due to incomplete deactivation (accumulation) of I(Ks). 3) The slow phase is due to increased repolarizing currents I(NaK) and reverse-mode I(NaCa), secondary to elevated Na(+). 4) Na(+)-overload slows the rate of AP depolarization, allowing time for greater I(Ca(L)) activation; it also enhances reverse-mode I(NaCa). The resulting increased Ca(2+) influx triggers a greater Ca(2+) transient. 5) Reverse-mode I(NaCa) alone can trigger Ca(2+) release in a voltage and Na(+)-dependent manner. 6) During I(NaK) block, Na(+) and Ca(2+) accumulate and APD shortens due to enhanced reverse-mode I(NaCa); contribution of I(K(Na)) to APD shortening is negligible. By slowing AP depolarization (hence velocity) and shortening APD, Na(+)-overload acts to enhance inducibility of reentrant arrhythmias. Shortened APD with elevated Ca(2+) (secondary to Na(+)-overload) also predisposes the myocardium to arrhythmogenic delayed afterdepolarizations.

摘要

心脏细胞的钠超载可伴随多种病理情况并诱发致命的心律失常。我们使用哺乳动物心室肌细胞的罗 - 鲁迪模型研究细胞内钠升高对心脏动作电位（AP）和细胞内钙的影响。结果如下：1）在快速起搏期间，动作电位时程（APD）分两个阶段缩短，一个是无Na(+)积累的快速阶段，另一个是依赖于Na(+)的较慢阶段。2）快速的APD缩短是由于I(Ks)的不完全失活（积累）。3）缓慢阶段是由于Na(+)升高继发的复极电流I(NaK)和反向模式I(NaCa)增加。4）Na(+)超载减慢了AP去极化速率，为更大程度的I(Ca(L))激活留出时间；它还增强了反向模式I(NaCa)。由此导致的Ca(2+)内流增加触发了更大的Ca(2+)瞬变。5）单独的反向模式I(NaCa)可通过电压和Na(+)依赖性方式触发Ca(2+)释放。6）在I(NaK)阻断期间，Na(+)和Ca(2+)积累，并且由于增强的反向模式I(NaCa)导致APD缩短；I(K(Na))对APD缩短的贡献可忽略不计。通过减慢AP去极化（从而降低速度）和缩短APD，Na(+)超载起到增强折返性心律失常诱发性的作用。Ca(2+)升高（继发于Na(+)超载）导致的APD缩短也使心肌易发生致心律失常性延迟后除极。

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