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渗透压缩对兔皮肤肌肉纤维中钙激活和张力的影响。

Influence of osmotic compression on calcium activation and tension in skinned muscle fibers of the rabbit.

作者信息

Godt R E, Maughan D W

出版信息

Pflugers Arch. 1981 Oct;391(4):334-7. doi: 10.1007/BF00581519.

DOI:10.1007/BF00581519
PMID:7312568
Abstract

Single skinned muscle fibers were osmotically compressed back to and below their in situ size by addition of a large, random-coil polymer (Deytran T500; MN = 180,000; MW = 461,000) to the bathing medium. Maximal Ca2+-activated tension in fibers swollen (zero Dextran, fiber width 21% above in situ) or near in situ size (5% Dextran, in g/100 ml final solution) was similar, but compression to 86% of in situ width with 10% Dextran decreased maximal force by 15% relative to polymer-free control. While the relative tension-pCa relation in 0 and 10% Dextran was similar, with a pCa of 6.37 required for 50% activation, that in 5% Dextran was more sensitive to Ca2+, with a pCa50 of 6.66. We feel these effects are most likely due to changes in interfilament spacing with compression and that alterations in Ca2+-sensitivity might be explained by changes in cross-bridge angle or in the concomitant attachment-detachment rate constants which would be expected to influence the troponin-Ca2+ binding equilibrium, as has been proposed by others.

摘要

通过向浴液中添加一种大型无规卷曲聚合物(右旋糖酐T500;数均分子量=180,000;重均分子量=461,000),单根去表皮肌纤维被渗透压压缩至其原位大小及以下。肿胀纤维(零右旋糖酐,纤维宽度比原位宽21%)或接近原位大小(5%右旋糖酐,最终溶液中质量浓度为g/100 ml)的最大Ca2+激活张力相似,但用10%右旋糖酐压缩至原位宽度的86%时,最大力相对于无聚合物对照组降低了15%。虽然0%和10%右旋糖酐中的相对张力-pCa关系相似,50%激活所需的pCa为6.37,但5%右旋糖酐中的相对张力-pCa关系对Ca2+更敏感,pCa50为6.66。我们认为这些效应很可能是由于压缩导致丝间间距的变化,而Ca2+敏感性的改变可能可以用横桥角度的变化或伴随的附着-解离速率常数的变化来解释,正如其他人所提出的,这些变化预计会影响肌钙蛋白-Ca2+结合平衡。

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