大鼠去表皮心肌细胞的力-速度和功率-负荷曲线。
Force-velocity and power-load curves in rat skinned cardiac myocytes.
作者信息
McDonald K S, Wolff M R, Moss R L
机构信息
Department of Physiology, University of Missouri School of Medicine, Columbia, MO 65212, USA
出版信息
J Physiol. 1998 Sep 1;511 ( Pt 2)(Pt 2):519-31. doi: 10.1111/j.1469-7793.1998.519bh.x.
Abstract
- This study utilized a skinned myocyte preparation with low end compliance to examine force-velocity and power-load curves at 12 C in myocytes from rat hearts. 2. In maximally activated myocyte preparations, shortening velocities appeared to remain constant during load clamps in which shortening took place over a sarcomere length range of approximately 2.30-2.00 micro m. These results suggest that previously reported curvilinear length traces during load clamps of multicellular preparations were due in part to extracellular viscoelastic structures that give rise to restoring forces during myocardial shortening. 3. During submaximal Ca2+ activations, the velocity of shortening at low loads slowed and the time course of shortening became curvilinear, i.e. velocity progressively slowed as shortening continued. This result implies that cross-bridge cycling kinetics are slower at low levels of activation and that an internal load arises during shortening of submaximally activated myocytes, perhaps due to slowly detaching cross-bridges. 4. Reduced levels of activator Ca2+ also reduced maximal power output and increased the relative load at which power output was optimal. For a given absolute load, the shift has the effect of maintaining power output near the optimum level despite reductions in cross-bridge number and force generating capability at lower levels of Ca2+.
摘要
- 本研究利用了一种低末端顺应性的去皮肤肌细胞制剂,以研究大鼠心脏肌细胞在12℃时的力-速度和功率-负荷曲线。2. 在最大激活的肌细胞制剂中,在负荷钳制期间,当肌节长度在约2.30 - 2.00微米范围内缩短时,缩短速度似乎保持恒定。这些结果表明,先前报道的多细胞制剂负荷钳制期间的曲线长度轨迹部分归因于细胞外粘弹性结构,这些结构在心肌缩短时产生恢复力。3. 在次最大Ca2+激活期间,低负荷下的缩短速度减慢,缩短的时间进程变为曲线,即随着缩短的继续,速度逐渐减慢。这一结果意味着在低激活水平下横桥循环动力学较慢,并且在次最大激活的肌细胞缩短过程中会产生内部负荷,这可能是由于横桥缓慢解离所致。4. 激活剂Ca2+水平降低也会降低最大功率输出,并增加功率输出最佳时的相对负荷。对于给定的绝对负荷,这种变化具有在较低Ca2+水平下尽管横桥数量和力产生能力降低,但仍能将功率输出维持在最佳水平附近的作用。
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