离体大鼠心室肌小梁长度改变后力和胞质钙离子浓度的变化
Changes in force and cytosolic Ca2+ concentration after length changes in isolated rat ventricular trabeculae.
作者信息
Kentish J C, Wrzosek A
机构信息
Department of Pharmacology, United Medical and Dental Schools, St Thomas's Hospital, London, UK.
出版信息
J Physiol. 1998 Jan 15;506 ( Pt 2)(Pt 2):431-44. doi: 10.1111/j.1469-7793.1998.431bw.x.
Abstract
- Changes in cytosolic [Ca2+] ([Ca2+]i) were measured in isolated rat trabeculae that had been micro-injected with fura-2 salt, in order to investigate the mechanism by which twitch force changes following an alteration of muscle length. 2. A step increase in length of the muscle produced a rapid potentiation of twitch force but not of the Ca2+ transient. The rapid rise of force was unaffected by inhibiting the sarcoplasmic reticulum (SR) with ryanodine and cyclopiazonic acid. 3. The force-[Ca2+]i relationship of the myofibrils in situ, determined from twitches and tetanic contractions in SR-inhibited muscles, showed that the rapid rise of force was due primarily to an increase in myofibrillar Ca2+ sensitivity, with a contribution from an increase in the maximum force production of the myofibrils. 4. After stretch of the muscle there was a further, slow increase of twitch force which was due entirely to a slow increase of the Ca2+ transient, since there was no change in the myofibrillar force-[Ca2+]i relationship. SR inhibition slowed down, but did not alter the magnitude of, the slow force response. 5. During the slow rise of force there was no slow increase of diastolic [Ca2+]i, whether or not the SR was inhibited. The same was true in unstimulated muscles. 6. We conclude that the rapid increase in twitch force after muscle stretch is due to the length-dependent properties of the myofibrils. The slow force increase is not explained by length dependence of the myofibrils or the SR, or by a rise in diastolic [Ca2+]i. Evidence from tetani suggests the slow force responses result from increased Ca2+ loading of the cell during the action potential.
摘要
- 为了研究肌肉长度改变后单收缩力变化的机制,在微注射了fura-2盐的离体大鼠小梁中测量胞质[Ca2+]([Ca2+]i)的变化。2. 肌肉长度的阶跃增加使单收缩力迅速增强,但对Ca2+瞬变无影响。力的快速上升不受用ryanodine和环匹阿尼酸抑制肌浆网(SR)的影响。3. 从SR抑制的肌肉中的单收缩和强直收缩确定的原位肌原纤维的力-[Ca2+]i关系表明,力的快速上升主要是由于肌原纤维Ca2+敏感性增加,肌原纤维最大力产生增加也有一定作用。4. 肌肉拉伸后,单收缩力进一步缓慢增加,这完全是由于Ca2+瞬变的缓慢增加,因为肌原纤维力-[Ca2+]i关系没有变化。SR抑制减慢了但没有改变缓慢的力反应的幅度。5. 在力缓慢上升期间,无论SR是否被抑制,舒张期[Ca2+]i均无缓慢增加。未受刺激的肌肉也是如此。6. 我们得出结论,肌肉拉伸后单收缩力的快速增加是由于肌原纤维的长度依赖性特性。缓慢的力增加不能用肌原纤维或SR的长度依赖性或舒张期[Ca2+]i的升高来解释。强直收缩的证据表明,缓慢的力反应是由于动作电位期间细胞内Ca2+负载增加所致。
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