离体兔心肌中依赖于拉伸的缓慢力反应是依赖于钠离子的。

Stretch-dependent slow force response in isolated rabbit myocardium is Na+ dependent.

作者信息

von Lewinski Dirk, Stumme Burkhard, Maier Lars S, Luers Claus, Bers Donald M, Pieske Burkert

机构信息

Department of Cardiology and Pneumology, Georg-August-University, Robert-Koch-Str. 40, 37075, Göttingen, Germany.

出版信息

Cardiovasc Res. 2003 Mar 15;57(4):1052-61. doi: 10.1016/s0008-6363(02)00830-1.

DOI:10.1016/s0008-6363(02)00830-1

PMID:12650883

Abstract

OBJECTIVE

Stretch induces functional and trophic effects in mammalian myocardium via various signal transduction pathways. We tested stretch signal transduction on immediate and slow force response (SFR) in rabbit myocardium.

METHODS

Experiments were performed in isolated right ventricular muscles from adult rabbit hearts (37 degrees C, 1 Hz stimulation rate, bicarbonate-buffer). Muscles were rapidly stretched from 88% of optimal length (L88) to near optimal length (L98) for functional analysis. The resulting immediate and slow increases in twitch force (first phase and SFR, respectively) were assessed at reduced [Na+]o or without and with blockade of stretch activated ion channels (SACs), angiotensin-II (AT1) receptors, endothelin-A (ET(A)) receptors, Na+/H+-exchange (NHE1), reverse mode Na+/Ca2+-exchange (NCX), or Na+/K+-ATPase. The effects of stretch on sarcoplasmic reticulum Ca2+-load were characterized using rapid cooling contractures (RCCs). Intracellular pH was measured in BCECF-AM loaded muscles, and action potential duration (APD) was assessed using floating electrodes.

RESULTS

On average, force increased to 216+/-8% of the pre-stretch value during the immediate phase, followed by a further increase to 273+/-10% during the SFR (n=81). RCCs significantly increased during SFR, whereas pH and APD did not change. Neither inhibition of SACs, AT1, or ET(A) receptors affected the stretch-dependent immediate phase nor SFR. In contrast, SFR was reduced by NHE inhibition and almost completely abolished by reduced [Na+]o or inhibition of reverse-mode NCX, whereas increased SFR was seen after raising [Na+]i by Na+/K+-ATPase inhibition.

CONCLUSIONS

The data demonstrate the existence of a delayed, Na+- and Ca2+-dependent but pH and APD independent SFR to stretch in rabbit myocardium. This inotropic response appears to be independent of autocrine/paracrine AT1 or ET(A) receptor activation, but mediated through stretch-induced activation of NHE and reverse mode NCX.

摘要

目的

牵张通过多种信号转导途径在哺乳动物心肌中诱导功能和营养作用。我们测试了牵张信号转导对兔心肌即时和缓慢力量反应（SFR）的影响。

方法

实验在成年兔心脏的离体右心室肌肉中进行（37℃，刺激频率1Hz，碳酸氢盐缓冲液）。为进行功能分析，肌肉从最佳长度的88%（L88）迅速拉伸至接近最佳长度（L98）。在降低细胞外[Na⁺]浓度或不阻断以及阻断牵张激活离子通道（SACs）、血管紧张素-II（AT1）受体、内皮素-A（ET(A)）受体、Na⁺/H⁺交换体（NHE1）、反向模式Na⁺/Ca²⁺交换体（NCX）或Na⁺/K⁺-ATP酶的情况下，评估由此产生的即时和缓慢的收缩力增加（分别为第一阶段和SFR）。使用快速冷却挛缩（RCCs）来表征牵张对肌浆网Ca²⁺负荷的影响。在加载BCECF-AM的肌肉中测量细胞内pH值，并使用浮动电极评估动作电位持续时间（APD）。

结果

平均而言，在即时阶段力量增加到牵张前值的216±8%，随后在SFR期间进一步增加到273±10%（n = 81）。在SFR期间RCCs显著增加，而pH值和APD没有变化。抑制SACs、AT1或ET(A)受体既不影响牵张依赖性即时阶段也不影响SFR。相反，抑制NHE会降低SFR，降低细胞外[Na⁺]浓度或抑制反向模式NCX几乎可完全消除SFR，而抑制Na⁺/K⁺-ATP酶提高细胞内[Na⁺]浓度后会出现SFR增加。

结论

数据表明兔心肌中存在一种延迟的、依赖Na⁺和Ca²⁺但不依赖pH值和APD的牵张SFR。这种变力反应似乎独立于自分泌/旁分泌AT1或ET(A)受体激活，但通过牵张诱导的NHE和反向模式NCX激活介导。

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离体兔心肌中依赖于拉伸的缓慢力反应是依赖于钠离子的。

Stretch-dependent slow force response in isolated rabbit myocardium is Na+ dependent.

作者信息

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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