离体大鼠门静脉振动后张力恢复的动力学
The kinetics of post-vibration tension recovery of the isolated rat portal vein.
作者信息
Klemt P, Peiper U, Speden R N, Zilker F
出版信息
J Physiol. 1981 Mar;312:281-96. doi: 10.1113/jphysiol.1981.sp013629.
Abstract
- The kinetics of post-vibration tension recovery have been examined during electrical, noradrenaline or KCl stimulation of the isolated rat portal vein. 2. Inhibition of isometric contractions produced by a combination of noradrenaline (20 microM) and KCl (53 mM) by longitudinal, 100 Hz sinusoidal vibration increased with increasing vibration amplitude up to a maximum of 78.7% of the active tension. This inhibition was little affected by a decrease in temperature from 37 to 25 degrees C. Recovery of tension after the end of vibration was complete and took place exponentially. The time constant for this recovery was little affected by changes in vibration amplitude, but increased from 1.72 +/- 0.09 to 4.35 +/- 0.33 sec, for large amplitude vibrations, when the temperature was lowered from 37 to 25 degrees C. 3. The increase in isometric tension during 50 Hz a.c. electrical field stimulation was exponential, apart from a minor initial activation component, and took place with a time constant of 1.25 +/- 0.17 sec. Neither delaying nor interrupting development of this contraction with inhibitory vibration altered the time constant for this exponential increase in tension. There was no correlation between the time constant and the maximum active tension achieved after vibration was stopped. 4. Post-vibration tension recovery during electrical, noradrenaline (20 microM) or KCl (120-130 mM) stimulation was independent of the nature of the stimulus at comparable times of stimulation, but the time constant increased during exposures of more than 10 sec to either noradrenaline or KCl. With noradrenaline, the increase was from 1.45 +/- 0.10 sec after 50 sec of stimulation to 2.24 +/- 0.16 sec after 336 sec of stimulation (P less than 0.0005). Such an increase in the time constant may reflect slower cycling of cross-bridges with an improvement in the efficiency by which contraction is maintained. 5. The kinetics of post-vibration tension recovery were those of a monomolecular or, as is more likely, a pseudo-monomolecular chemical reaction. A cross-bridge attachment model based on such a reaction has been used to interpret the observations.
摘要
- 已在对离体大鼠门静脉进行电刺激、去甲肾上腺素刺激或氯化钾刺激期间,研究了振动后张力恢复的动力学。2. 纵向100赫兹正弦振动对去甲肾上腺素(20微摩尔)和氯化钾(53毫摩尔)联合产生的等长收缩的抑制作用,随振动幅度增加而增强,最大可达主动张力的78.7%。这种抑制作用受温度从37℃降至25℃的影响较小。振动结束后张力完全恢复,且呈指数形式发生。这种恢复的时间常数受振动幅度变化的影响较小,但在大幅度振动时,当温度从37℃降至25℃时,时间常数从1.72±0.09秒增加到4.35±0.33秒。3. 除了一个较小的初始激活成分外,50赫兹交流电场刺激期间等长张力的增加呈指数形式,时间常数为1.25±0.17秒。用抑制性振动延迟或中断这种收缩的发展,均未改变张力呈指数增加的时间常数。时间常数与振动停止后达到的最大主动张力之间无相关性。4. 在电刺激、去甲肾上腺素(20微摩尔)或氯化钾(120 - 130毫摩尔)刺激期间,振动后张力恢复在可比刺激时间上与刺激性质无关,但在暴露于去甲肾上腺素或氯化钾超过10秒时,时间常数增加。对于去甲肾上腺素,刺激50秒后时间常数为1.45±0.10秒,刺激336秒后增加到2.24±0.16秒(P小于0.0005)。时间常数的这种增加可能反映了横桥循环变慢,同时维持收缩的效率有所提高。5. 振动后张力恢复的动力学符合单分子反应,或者更有可能是准单分子化学反应。基于这种反应的横桥附着模型已被用于解释这些观察结果。
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