磷酸肌酸和无机磷对大鼠去表皮骨骼肌纤维中钙离子运动及张力发展的影响。
Effects of creatine phosphate and P(i) on Ca2+ movements and tension development in rat skinned skeletal muscle fibres.
作者信息
Fryer M W, Owen V J, Lamb G D, Stephenson D G
机构信息
Department of Zoology, La Trobe University, Bundoora, Victoria, Australia.
出版信息
J Physiol. 1995 Jan 1;482 ( Pt 1)(Pt 1):123-40. doi: 10.1113/jphysiol.1995.sp020504.
Abstract
- Mechanically skinned fast-twitch (FT) and slow-twitch (ST) muscle fibres of the rat were used to investigate the effects of fatigue-like changes in creatine phosphate (CP) and inorganic phosphate (P(i)) concentration on Ca(2+)-activation properties of the myofilaments as well as Ca2+ movements into and out of the sarcoplasmic reticulum (SR). 2. Decreasing CP from 50 mM to zero in FT fibres increased maximum Ca(2+)-activated tension (Tmax) by 16 +/- 2% and shifted the mid-point of the tension-pCa relation (pCa50) to the left by 0.28 +/- 0.03 pCa units. In ST fibres, a decrease of CP from 25 mM to zero increased Tmax by 9 +/- 1% and increased the pCa50 by 0.16 +/- 0.01 pCa units. The effect of CP on Tmax was suppressed in both fibre types by prior treatment with 0.3 mM FDNB (1-fluoro-2,4-dinitrobenzene), suggesting that these effects may occur via changes in creatine kinase activity. 3. Increases of P(i) in the range 0-50 mM reduced the pCa50 and Tmax in both fibre types. These effects were more pronounced in ST fibres than in FT fibres in absolute terms. However, normalization of the results to resting P(i) levels appropriate to both fibre types (1 mM for FT and 5 mM for ST fibres) revealed similar decreases in Tmax (approximately 39% at 25 mM P(i) and approximately 48% at 50 mM P(i)) and pCa50 (0.25 pCa units at 25-50 mM P(i)). The depressant action of P(i) on both parameters was considerably reduced when the rise in P(i) was accompanied by an equivalent reduction in [CP]. 4. Tension development in the presence of complex, fatigue-like milieu changes (40 mM P(i) for FT; 20 mM P(i) for ST) was decreased by 35-40% at a constant myoplasmic [Ca2+] of 6 microM in both fibre types. 5. SR Ca2+ loading at a myoplasmic [Ca2+] of 100 nM was found to increase abruptly when the [P(i)] during loading was increased to near 9 mM. At a myoplasmic [Ca2+] of 300 nM, the threshold P(i) for this effect dropped to approximately 3 mM. 6. Tension responses evoked by caffeine in the absence of P(i) were smaller and slower to peak if fibres were exposed to P(i) in a restricted myoplasmic Ca2+ pool after SR Ca2+ loading. This indicated that myoplasmic P(i) can decrease and prolong the rate of Ca2+ release from the SR.(ABSTRACT TRUNCATED AT 400 WORDS)
摘要
- 使用大鼠的机械去皮肤快速收缩(FT)和慢速收缩(ST)肌纤维,研究磷酸肌酸(CP)和无机磷酸(P(i))浓度的疲劳样变化对肌丝Ca(2+)激活特性以及Ca2+进出肌浆网(SR)的影响。2. 在FT纤维中,将CP从50 mM降至零,最大Ca(2+)激活张力(Tmax)增加16±2%,张力-pCa关系的中点(pCa50)向左移动0.28±0.03 pCa单位。在ST纤维中,CP从25 mM降至零,Tmax增加9±1%,pCa50增加0.16±0.01 pCa单位。两种纤维类型中,CP对Tmax的影响均被0.3 mM FDNB(1-氟-2,4-二硝基苯)预处理所抑制,表明这些影响可能通过肌酸激酶活性的变化而发生。3. 在0 - 50 mM范围内P(i)的增加降低了两种纤维类型的pCa50和Tmax。绝对而言,这些影响在ST纤维中比在FT纤维中更明显。然而,将结果归一化为两种纤维类型各自合适的静息P(i)水平(FT纤维为1 mM,ST纤维为5 mM)后,发现Tmax有类似程度的降低(在25 mM P(i)时约为39%,在50 mM P(i)时约为48%),pCa50也有类似降低(在25 - 50 mM P(i)时为0.25 pCa单位)。当P(i)升高同时[CP]等量降低时,P(i)对这两个参数的抑制作用显著降低。4. 在存在复杂的、类似疲劳的环境变化(FT纤维为40 mM P(i);ST纤维为20 mM P(i))时,在两种纤维类型中,当肌浆[Ca2+]恒定为6 microM时,张力发展降低了35 - 40%。5. 当加载过程中的[P(i)]增加到接近9 mM时,发现在肌浆[Ca2+]为100 nM时SR Ca2+加载会突然增加。在肌浆[Ca2+]为300 nM时,此效应的阈值P(i)降至约3 mM。6. 如果在SR Ca2+加载后纤维在受限的肌浆Ca2+池中暴露于P(i),则在无P(i)时咖啡因诱发的张力反应峰值更小且更慢。这表明肌浆P(i)可降低并延长SR中Ca2+的释放速率。(摘要截断于400字)
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