Konishi M, Kurihara S, Sakai T
J Physiol. 1985 Aug;365:131-46. doi: 10.1113/jphysiol.1985.sp015763.
In a single skeletal muscle fibre treated with concentrations of caffeine below threshold for caffeine contracture, rapid lowering of the temperature of the bathing solution from 18 degrees C to below 5 degrees C induced a contracture (rapid cooling contracture). Intracellular Ca2+ concentration ([Ca2+]i) was recorded during rapid cooling contracture using aequorin. Low concentrations of caffeine often caused a slight elevation of the light signal in resting muscle without detectable tension. During rapid cooling contracture, the change in light signal occurred in three phases. The first phase was a transient change of [Ca2+]i accompanying slight tension. During the second phase, the light signal slowly increased as cooling produced maximum tension development. The third phase was an additional light signal induced after the second phase, even though the tension was saturated. The second and third phases were more sensitive to low concentrations of procaine (0.2-0.5 mM) than the first phase. Synchronous oscillations of light and tension were often observed during the second phase. The light signal during rapid cooling contracture was only slightly affected by long incubation in Ca-free or Ca-rich solutions. These results are interpreted as follows. A low concentration of caffeine elevates cytoplasmic resting Ca2+ level without tension development. The oscillations of light and tension often observed in the second phase might represent a cyclic release of Ca2+ from the sarcoplasmic reticulum (s.r.). The third phase is considered to be due to a massive Ca2+ release by a Ca-induced Ca-release mechanism which might be similar to that in skinned fibres. The second phase is probably essential for generation of rapid cooling contracture tension and the third phase represents an excess Ca2+ for tension development.
在一根用低于咖啡因挛缩阈值浓度的咖啡因处理过的单一骨骼肌纤维中,将灌流液温度从18℃迅速降至5℃以下会诱发挛缩(快速冷却挛缩)。在快速冷却挛缩期间,使用水母发光蛋白记录细胞内Ca2+浓度([Ca2+]i)。低浓度咖啡因常使静息肌肉中的光信号略有升高,但无明显张力。在快速冷却挛缩期间,光信号的变化分三个阶段。第一阶段是[Ca2+]i的短暂变化并伴有轻微张力。在第二阶段,随着冷却产生最大张力发展,光信号缓慢增加。第三阶段是在第二阶段之后诱发的额外光信号,即使张力已达到饱和。第二和第三阶段比第一阶段对低浓度普鲁卡因(0.2 - 0.5 mM)更敏感。在第二阶段常观察到光和张力的同步振荡。快速冷却挛缩期间的光信号仅受到在无钙或富钙溶液中长时间孵育的轻微影响。这些结果可解释如下。低浓度咖啡因会升高细胞质静息Ca2+水平而不产生张力。在第二阶段常观察到的光和张力振荡可能代表Ca2+从肌浆网(s.r.)的周期性释放。第三阶段被认为是由于钙诱导的钙释放机制导致大量Ca2+释放,这可能与去表皮纤维中的情况类似。第二阶段可能是产生快速冷却挛缩张力所必需的,而第三阶段代表了用于张力发展的过量Ca2+。