大鼠心肌肌节缩短速度:与力、肌节长度、钙及时间的关系。
Velocity of sarcomere shortening in rat cardiac muscle: relationship to force, sarcomere length, calcium and time.
作者信息
Daniels M, Noble M I, ter Keurs H E, Wohlfart B
出版信息
J Physiol. 1984 Oct;355:367-81. doi: 10.1113/jphysiol.1984.sp015424.
The relation between force and velocity was determined in sixteen trabeculae of rat right ventricle as a function of time during a twitch, of sarcomere length and of external Ca2+ concentration, [Ca2+]o. The trabeculae were studied in modified Krebs-Henseleit solution at 25 degrees C. Force was measured with a semiconductor strain gauge. Sarcomere length was measured with a laser diffraction system. A servomotor system was used in which control could be switched between sarcomere length, muscle length and force. Force-velocity relations were derived from load clamps and from contractions in which sarcomere length was initially held constant followed by a quick release and slower release of the sarcomeres at controlled velocity. Force-velocity relations were fitted by Hill's equation (Hill, 1938), (Po-P) b = (P+a) V, where P = force, V = velocity, Po = isometric force in mN/mm2 and a and b are constants. For [Ca2+]o = 2.5 mM, with both interventions the values (mean +/- S.D.) were: b = 1.00 +/- 0.45 micron/s; a = 9.52 +/- 5.60 mN/mm2; Vo measured = 13.6 +/- 3.0 micron/s; Vo calculated = 13.4 +/- 3.4 micron/s; Po measured = 96.5 +/- 25.0 mN/mm2; Po calculated = 119.3 +/- 34.5 mN/mm2. Vo rose with [Ca2+]o to a maximum at [Ca2+]o = 1.2 mM when Po was about 50% of maximum, while Po rose with [Ca2+]o to a maximum at above 2.5 mM. Vo rose with time during the twitch to a maximum at 25 ms following onset of contraction; Po was then about 50% of the maximum that was obtained at 120 ms. Vo increased with sarcomere length from zero at a sarcomere length of 1.6 micron to a maximum at 1.85 micron. Between 1.85 micron and 2.3 micron, Vo was constant. At 1.85 micron, Po was about 60% of maximum Po. These results are compatible with the hypothesis that Vo is more sensitive than Po to the amount of Ca2+ bound to the contractile proteins, and that Vo reaches a maximal value with an amount of Ca2+ bound to the contractile proteins at which Po has obtained only about 50% of its maximal value.
在大鼠右心室的16条小梁中,研究了收缩过程中力与速度之间的关系,该关系是时间、肌节长度和细胞外钙离子浓度[Ca2+]o的函数。在25℃下,于改良的Krebs-Henseleit溶液中对小梁进行研究。用半导体应变仪测量力,用激光衍射系统测量肌节长度。使用了一个伺服电机系统,其控制可在肌节长度、肌肉长度和力之间切换。力-速度关系由负荷钳以及收缩过程推导得出,在收缩过程中,肌节长度最初保持恒定,随后以可控速度对肌节进行快速释放和缓慢释放。力-速度关系用希尔方程(希尔,1938年)(Po-P) b = (P+a) V拟合,其中P = 力,V = 速度,Po = 等长力(单位为mN/mm2),a和b为常数。对于[Ca2+]o = 2.5 mM,两种干预方式下的值(均值±标准差)为:b = 1.00±0.45微米/秒;a = 9.52±5.60 mN/mm2;测量的Vo = 13.6±3.0微米/秒;计算的Vo = 13.4±3.4微米/秒;测量的Po = 96.5±25.0 mN/mm2;计算的Po = 119.3±34.5 mN/mm2。Vo随[Ca2+]o升高,在[Ca2+]o = 1.2 mM时达到最大值,此时Po约为最大值的50%,而Po随[Ca2+]o升高,在高于2.5 mM时达到最大值。在收缩开始后25毫秒时,Vo在收缩过程中随时间升高至最大值;此时Po约为120毫秒时获得的最大值的50%。Vo随肌节长度增加,从肌节长度为1.6微米时的零增加到1.85微米时的最大值。在1.85微米至2.3微米之间,Vo保持恒定。在1.85微米时,Po约为最大Po的60%。这些结果与以下假设相符,即Vo比Po对与收缩蛋白结合的钙离子量更敏感,并且Vo在与收缩蛋白结合的钙离子量达到某一值时达到最大值,此时Po仅获得其最大值的约50%。
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