Clinic for Cardiac Surgery, University of Leipzig, Heart Center, Leipzig, Germany.
Biophys J. 2010 Nov 3;99(9):2821-30. doi: 10.1016/j.bpj.2010.09.010.
Many cardiac diseases coincide with changes in cell size and shape. One example of such a disease is cardiac hypertrophy. It is established that cardiac impulse propagation depends on the cell size, as well as other factors, but interrelations between conduction velocity (CV), cell size, and gap junction (GJ) conductance (g(GJ)) are complex. Furthermore, cardiac diseases are often accompanied by connexin (Cx) lateralization. To analyze the effects of cell size and Cx lateralization in cardiac disease, a two-dimensional computer simulation of ventricular myocytes based on the Luo-Rudy model was used. Control cells (80 μm/20 μm (length/diameter)), long cells (160 μm/20 μm), and wide cells (80 μm/40 μm) were simulated as was a redistribution of lateral GJs (constant lateral g(GJ) and increased lateral g(GJ)). CV in long cells showed high stability, i.e., it declined very slowly when g(GJ) was gradually reduced. Wide cells, however, were more affected by reduced g(GJ), resulting in early transition to discontinuous propagation and low CV. Conduction block occurred earlier in enlarged cells than in control cells due to increased cell capacitance. Increased lateral g(GJ) stabilized longitudinal CV, which was a result of two-dimensional effects during planar wave propagation. Therefore, Cx lateralization may compensate for cardiac inhomogeneities. High lateral g(GJ) and enhanced cell diameter increased the susceptibility to conduction block at tissue expansion, providing a substrate for arrhythmia.
许多心脏疾病都伴随着细胞大小和形状的变化。心脏肥大就是这样一种疾病。已经证实,心脏冲动的传播取决于细胞大小以及其他因素,但传导速度 (CV)、细胞大小和缝隙连接 (GJ) 电导 (g(GJ)) 之间的相互关系是复杂的。此外,心脏疾病通常伴随着连接蛋白 (Cx) 的侧化。为了分析细胞大小和 Cx 侧化在心脏疾病中的影响,使用基于 Luo-Rudy 模型的心室肌细胞二维计算机模拟。模拟了对照细胞(80μm/20μm(长度/直径))、长细胞(160μm/20μm)和宽细胞(80μm/40μm),以及横向 GJ 重新分布(恒定横向 g(GJ) 和增加横向 g(GJ))。长细胞中的 CV 表现出很高的稳定性,即当 g(GJ) 逐渐降低时,CV 下降非常缓慢。然而,宽细胞受降低的 g(GJ) 的影响更大,导致早期过渡到不连续传播和低 CV。由于细胞电容增加,增大的细胞中的传导阻滞发生得比对照细胞更早。增加的横向 g(GJ) 稳定了纵向 CV,这是平面波传播过程中的二维效应的结果。因此,Cx 的侧化可能补偿心脏的非均质性。高横向 g(GJ) 和增强的细胞直径增加了组织扩张时传导阻滞的易感性,为心律失常提供了基质。