Cell size induced bias of current density in hypertrophic cardiomyocytes.

Channels (Austin, Tex.) Pub Date : 2024-12-01 Epub Date: 2024-06-05 DOI:10.1080/19336950.2024.2361416
Elena Lilliu, Benjamin Hackl, Eva Zabrodska, Stefanie Gewessler, Tobias Karge, Jessica Marksteiner, Jakob Sauer, Eva M Putz, Hannes Todt, Karlheinz Hilber, Xaver Koenig
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Abstract

Alterations in ion channel expression and function known as "electrical remodeling" contribute to the development of hypertrophy and to the emergence of arrhythmias and sudden cardiac death. However, comparing current density values - an electrophysiological parameter commonly utilized to assess ion channel function - between normal and hypertrophied cells may be flawed when current amplitude does not scale with cell size. Even more, common routines to study equally sized cells or to discard measurements when large currents do not allow proper voltage-clamp control may introduce a selection bias and thereby confound direct comparison. To test a possible dependence of current density on cell size and shape, we employed whole-cell patch-clamp recording of voltage-gated sodium and calcium currents in Langendorff-isolated ventricular cardiomyocytes and Purkinje myocytes, as well as in cardiomyocytes derived from trans-aortic constriction operated mice. Here, we describe a distinct inverse relationship between voltage-gated sodium and calcium current densities and cell capacitance both in normal and hypertrophied cells. This inverse relationship was well fit by an exponential function and may be due to physiological adaptations that do not scale proportionally with cell size or may be explained by a selection bias. Our study emphasizes the need to consider cell size bias when comparing current densities in cardiomyocytes of different sizes, particularly in hypertrophic cells. Conventional comparisons based solely on mean current density may be inadequate for groups with unequal cell size or non-proportional current amplitude and cell size scaling.

细胞大小诱导肥大心肌细胞的电流密度偏差
离子通道表达和功能的改变被称为 "电重塑",它有助于肥大的发展以及心律失常和心脏性猝死的出现。然而,在正常细胞和肥大细胞之间比较电流密度值(通常用于评估离子通道功能的电生理参数)可能存在缺陷,因为电流振幅并不随细胞大小而变化。此外,研究同等大小的细胞或在大电流无法进行适当的电压钳控制时放弃测量的常见方法可能会引入选择偏差,从而混淆直接比较。为了测试电流密度对细胞大小和形状的可能依赖性,我们采用了全细胞贴片钳记录朗根多夫分离心室心肌细胞和浦肯野(Purkinje)心肌细胞以及经主动脉收缩操作小鼠心肌细胞的电压门控钠离子和钙离子电流。在这里,我们描述了正常细胞和肥大细胞中电压门控钠离子和钙离子电流密度与细胞电容之间明显的反比关系。这种反比关系用指数函数很好地拟合,可能是由于生理适应与细胞大小不成正比,也可能是由于选择偏差。我们的研究强调,在比较不同大小心肌细胞(尤其是肥大细胞)的电流密度时,需要考虑细胞大小偏差。对于细胞大小不等或电流振幅与细胞大小不成正比的组别,仅根据平均电流密度进行传统比较可能是不够的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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