通过磷核磁共振研究二氧化碳对青蛙骨骼肌强直收缩的影响。

Effects of carbon dioxide on tetanic contraction of frog skeletal muscles studied by phosphorus nuclear magnetic resonance.

作者信息

Nakamura T, Yamada K

机构信息

Department of Physiology, Medical College of Oita, Japan.

出版信息

J Physiol. 1992;453:247-59. doi: 10.1113/jphysiol.1992.sp019227.

DOI:10.1113/jphysiol.1992.sp019227

PMID:1464830

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1175556/

Abstract

Bullfrog skeletal muscles were stimulated tetanically for 2 s at a sarcomere length of 2.4 microns in Ringer solution saturated with a gas mixture of O2 and CO2 of various proportions, at 4 degrees C. Using 31P nuclear magnetic resonance (31P-NMR), concentrations of inorganic phosphate (P(i)) and phosphocreatine (PCr) and intracellular pH (pHi) in whole muscle were measured in order to correlate the changes in these metabolites with the mechanical responses. 2. Resting muscles were first equilibrated to 5% CO2, then the CO2 concentration was increased up to 30%. This resulted in a rapid increase in [H+] (pH 6.72 in 30%, and 7.21 in 5% CO2) with little change in P(i) or PCr concentrations. When these muscles were given a single tetanic stimulation force fell in proportion to the decrease in pHi. 3. When a series of tetanic stimulations, with a long recovery period between tetani, was applied to the muscles in high CO2, force declined until a steady level was attained. A considerable increase in [P(i)] accompanied this whereas the decrease in pHi was relatively small. The force decline was much greater than could be predicted by the decrease in pHi alone. The concentration of ATP did not change significantly. 4. By subtracting the direct effect of [H+] on force a relationship between force and total P(i) concentration in the steady state of repeated contraction-recovery cycles was obtained. Force was suppressed linearly by increasing P(i) up to 30 mmol (1 fibre water)-1, while this relationship suggested an interaction between the effects of [P(i)] and [H+]. 5. These results have also shown that the inhibitory effects of CO2 on muscle contraction are dual. While elevation of [H+] directly suppresses contraction, this also accelerates P(i) accumulation in actively contracting muscles, which further suppresses contraction.

摘要

在4℃下，将牛蛙骨骼肌在含有不同比例O₂和CO₂混合气体的林格氏液中，肌节长度为2.4微米时强直刺激2秒。使用³¹P核磁共振（³¹P-NMR）测量整块肌肉中无机磷酸（P(i)）、磷酸肌酸（PCr）的浓度以及细胞内pH值（pHi），以便将这些代谢物的变化与机械反应相关联。2. 静息肌肉首先平衡至5%的CO₂，然后将CO₂浓度增加至30%。这导致[H⁺]迅速增加（30% CO₂时pH为6.72，5% CO₂时为7.21），而P(i)或PCr浓度变化不大。当对这些肌肉进行单次强直刺激时，力量与pHi的降低成比例下降。3. 当在高CO₂环境下对肌肉施加一系列强直刺激，且两次强直刺激之间有较长恢复期时，力量下降直至达到稳定水平。与此同时，[P(i)]显著增加，而pHi的降低相对较小。力量下降幅度远大于仅由pHi降低所预测的幅度。ATP浓度没有显著变化。4. 通过减去[H⁺]对力量的直接影响，得到了重复收缩 - 恢复周期稳态下力量与总P(i)浓度之间的关系。当P(i)增加至30 mmol（1纤维水）⁻¹时，力量呈线性抑制，而这种关系表明[P(i)]和[H⁺]的作用之间存在相互作用。5. 这些结果还表明，CO₂对肌肉收缩的抑制作用是双重的。虽然[H⁺]升高直接抑制收缩，但这也加速了主动收缩肌肉中P(i)的积累，从而进一步抑制收缩。