非衰竭和衰竭人类心肌中[Na⁺]i与收缩性的速率依赖性

Rate dependence of [Na+]i and contractility in nonfailing and failing human myocardium.

作者信息

Pieske Burkert, Maier Lars S, Piacentino Valentino, Weisser Jutta, Hasenfuss Gerd, Houser Steven

机构信息

Abteilung Kardiologie und Pneumologie, Georg-August-Universität Göttingen, Germany.

出版信息

Circulation. 2002 Jul 23;106(4):447-53. doi: 10.1161/01.cir.0000023042.50192.f4.

DOI:10.1161/01.cir.0000023042.50192.f4

PMID:12135944

Abstract

BACKGROUND

In the failing human heart, altered Ca2+ homeostasis causes contractile dysfunction. Because Ca2+ and Na+ homeostasis are intimately linked through the Na+/Ca2+ exchanger, we compared the regulation of [Na+]i in nonfailing (NF) and failing human myocardium.

METHODS AND RESULTS

[Na+]i was measured in SBFI-loaded muscle strips. At slow pacing rates (0.25 Hz, 37 degrees C), isometric force was similar in NF (n=6) and failing (n=12) myocardium (6.4+/-1.2 versus 7.2+/-1.9 mN/mm2), but [Na+]i and diastolic force were greater in failing (22.1+/-2.6 mmol/L and 15.6+/-3.2 mN/mm2) than in NF (15.9+/-3.1 mmol/L and 3.50+/-0.55 mN/mm2; P<0.05) myocardium. In NF hearts, increasing stimulation rates resulted in a parallel increase in force and [Na+]i without changes in diastolic tension. At 2.0 Hz, force increased to 136+/-17% of the basal value (P<0.05), and [Na+]i to 20.5+/-4.2 mmol/L (P<0.05). In contrast, in failing myocardium, force declined to 45+/-3%, whereas [Na+]i increased to 27.4+/-3.2 mmol/L (both P<0.05), in association with significant elevations in diastolic tension. [Na+]i was higher in failing than in NF myocardium at every stimulation rate. [Na+]i predicted in myocytes from Na+ (pipette)-contraction relations was 8.0 mmol/L in NF (n=9) and 12.1 mmol/L in failing (n=57; P<0.05) myocardium at 0.25 Hz. Reverse-mode Na+/Ca2+ exchange induced significant Ca2+ influx in failing but not NF myocytes, compatible with higher [Na+]i in failing myocytes.

CONCLUSIONS

Na+i homeostasis is altered in failing human myocardium. At slow heart rates, the higher [Na+]i in failing myocardium appears to enhance Ca2+ influx through Na+/Ca2+ exchange and maintain sarcoplasmic reticulum Ca(2+) load and force development. At faster rates, failing myocytes with high [Na+]i cannot further increase sarcoplasmic reticulum Ca2+ load and are prone to diastolic Ca2+ overload.

摘要

背景

在衰竭的人类心脏中，钙稳态改变导致收缩功能障碍。由于钙和钠稳态通过钠/钙交换器密切相关，我们比较了非衰竭（NF）和衰竭人类心肌中[Na⁺]i的调节情况。

方法与结果

在装载SBFI的肌肉条中测量[Na⁺]i。在缓慢起搏频率（0.25Hz，37℃）下，NF（n = 6）和衰竭（n = 12）心肌的等长力相似（6.4±1.2对7.2±1.9mN/mm²），但衰竭心肌中的[Na⁺]i和舒张期力大于NF心肌（分别为22.1±2.6mmol/L和15.6±3.2mN/mm²，以及15.9±3.1mmol/L和3.50±0.55mN/mm²；P<0.05）。在NF心脏中，增加刺激频率导致力和[Na⁺]i平行增加，而舒张期张力无变化。在2.0Hz时，力增加至基础值的136±17%（P<0.05），[Na⁺]i增加至20.5±4.2mmol/L（P<0.05）。相反，在衰竭心肌中，力下降至45±3%，而[Na⁺]i增加至27.4±3.2mmol/L（均P<0.05），同时舒张期张力显著升高。在每个刺激频率下，衰竭心肌中的[Na⁺]i均高于NF心肌。在0.25Hz时，根据钠（移液管）-收缩关系预测的NF（n = 9）心肌细胞中的[Na⁺]i为8.0mmol/L，衰竭（n = 57；P<0.05）心肌细胞中的为12.1mmol/L。反向模式钠/钙交换在衰竭但非NF心肌细胞中诱导显著的钙内流，这与衰竭心肌细胞中较高的[Na⁺]i一致。