磷酸肌酸和肌酸在人类骨骼肌线粒体呼吸调节中的作用。
The role of phosphorylcreatine and creatine in the regulation of mitochondrial respiration in human skeletal muscle.
作者信息
Walsh B, Tonkonogi M, Söderlund K, Hultman E, Saks V, Sahlin K
机构信息
Department of Physiology and Pharmacology, Karolinska Institute, Stockholm, Sweden.
出版信息
J Physiol. 2001 Dec 15;537(Pt 3):971-8. doi: 10.1111/j.1469-7793.2001.00971.x.
Abstract
- The role of phosphorylcreatine (PCr) and creatine (Cr) in the regulation of mitochondrial respiration was investigated in permeabilised fibre bundles prepared from human vastus lateralis muscle. 2. Fibre respiration was measured in the absence of ADP (V(0)) and after sequential additions of submaximal ADP (0.1 mM ADP, V(submax)), PCr (or Cr) and saturating [ADP] (V(max)). 3. V(submax) increased by 55 % after addition of saturating creatine (P < 0.01; n = 8) and half the maximal effect was obtained at 5 mM [Cr]. In contrast, V(submax) decreased by 54 % after addition of saturating phosphorylcreatine (P < 0.01; n = 8) and half the maximal effect was obtained at 1 mM [PCr]. V(max) was not affected by Cr or PCr. 4. V(submax) was similar when PCr and Cr were added simultaneously at concentrations similar to those in muscle at rest (PCr/Cr = 2) and at low-intensity exercise (PCr/Cr = 0.5). At conditions mimicking high-intensity exercise (PCr/Cr = 0.1), V(submax) increased to 60 % of V(max) (P < 0.01 vs. rest and low-intensity exercise). 5. Eight of the subjects participated in a 16 day Cr supplementation programme. Following Cr supplementation, V(0) decreased by 17 % (P < 0.01 vs. prior to Cr supplementation), whereas ADP-stimulated respiration (with and without Cr or PCr) was unchanged. 6. For the first time evidence is given that PCr is an important regulator of mitochondrial ADP-stimulated respiration. Phosphorylcreatine decreases the sensitivity of mitochondrial respiration to ADP whereas Cr has the opposite effect. During transition from rest to high-intensity exercise, decreases in the PCr/Cr ratio will effectively increase the sensitivity of mitochondrial respiration to ADP. The decrease in V(0) after Cr supplementation indicates that intrinsic changes in membrane proton conductance occur.
摘要
- 在从人股外侧肌制备的透化纤维束中研究了磷酸肌酸(PCr)和肌酸(Cr)在调节线粒体呼吸中的作用。2. 在不存在ADP(V(0))的情况下以及依次添加次最大ADP(0.1 mM ADP,V(submax))、PCr(或Cr)和饱和[ADP](V(max))后测量纤维呼吸。3. 添加饱和肌酸后V(submax)增加了55%(P < 0.01;n = 8),在5 mM [Cr]时获得最大效应的一半。相比之下,添加饱和磷酸肌酸后V(submax)降低了54%(P < 0.01;n = 8),在1 mM [PCr]时获得最大效应的一半。V(max)不受Cr或PCr影响。4. 当以与静息肌肉中相似的浓度(PCr/Cr = 2)和低强度运动时的浓度(PCr/Cr = 0.5)同时添加PCr和Cr时,V(submax)相似。在模拟高强度运动的条件下(PCr/Cr = 0.1),V(submax)增加到V(max)的60%(与静息和低强度运动相比,P < 0.01)。5. 八名受试者参加了为期16天的肌酸补充计划。补充肌酸后,V(0)降低了17%(与补充肌酸前相比,P < 0.01),而ADP刺激的呼吸(有或没有Cr或PCr)没有变化。6. 首次有证据表明PCr是线粒体ADP刺激呼吸的重要调节剂。磷酸肌酸降低了线粒体呼吸对ADP的敏感性,而Cr则有相反的作用。在从静息状态转变为高强度运动期间,PCr/Cr比值的降低将有效地增加线粒体呼吸对ADP的敏感性。补充肌酸后V(0)的降低表明膜质子传导发生了内在变化。
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