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经胶原酶消化后用于研究收缩性、疲劳及肌钙蛋白C-肌节缩短关系的单根趾长伸肌(FDB)纤维的特性

Properties of single FDB fibers following a collagenase digestion for studying contractility, fatigue, and pCa-sarcomere shortening relationship.

作者信息

Selvin David, Hesse Erik, Renaud Jean-Marc

机构信息

University of Ottawa, Department of Cellular and Molecular Medicine, Ottawa, Ontario, Canada.

University of Ottawa, Department of Cellular and Molecular Medicine, Ottawa, Ontario, Canada

出版信息

Am J Physiol Regul Integr Comp Physiol. 2015 Mar 15;308(6):R467-79. doi: 10.1152/ajpregu.00144.2014. Epub 2015 Jan 7.

Abstract

The objective of this study was to optimize the approach to obtain viable single flexor digitorum brevis (FDB) fibers following a collagenase digestion. A first aim was to determine the culture medium conditions for the collagenase digestion. The MEM yielded better fibers in terms of morphology and contractility than the DMEM. The addition of FBS to culture media was crucial to prevent fiber supercontraction. The addition of FBS to the physiological solution used during an experiment was also beneficial, especially during fatigue. Optimum FBS concentration in MEM was 10% (vol/vol), and for the physiological solution, it ranged between 0.2 and 1.0%. A second aim was to document the stability of single FDB fibers. If tested the day of the preparation, most fibers (∼80%) had stable contractions for up to 3 h, normal stimulus duration strength to elicit contractions, and normal and stable resting membrane potential during prolonged microelectrode penetration. A third aim was to document their fatigue kinetics. Major differences in fatigue resistance were observed between fibers as expected from the FDB fiber-type composition. All sarcoplasmic [Ca(2+)] and sarcomere length parameters returned to their prefatigue levels after a short recovery. The pCa-sarcomere shortening relationship of unfatigued fibers is very similar to the pCa-force curve reported in other studies. The pCa-sarcomere shortening from fatigue data is complicated by large decreases in sarcomere length between contractions. It is concluded that isolation of single fibers by a collagenase digestion is a viable preparation to study contractility and fatigue kinetics.

摘要

本研究的目的是优化在胶原酶消化后获取存活的单一趾短屈肌(FDB)纤维的方法。第一个目标是确定胶原酶消化的培养基条件。就形态和收缩性而言,MEM比DMEM能产生更好的纤维。向培养基中添加胎牛血清(FBS)对于防止纤维过度收缩至关重要。在实验过程中向生理溶液中添加FBS也有益处,尤其是在疲劳期间。MEM中的最佳FBS浓度为10%(体积/体积),生理溶液中的FBS浓度范围为0.2%至1.0%。第二个目标是记录单一FDB纤维的稳定性。如果在制备当天进行测试,大多数纤维(约80%)在长达3小时内具有稳定的收缩,引发收缩的刺激持续时间强度正常,并且在长时间微电极刺入过程中静息膜电位正常且稳定。第三个目标是记录它们的疲劳动力学。正如预期的FDB纤维类型组成那样,在纤维之间观察到了疲劳抗性的主要差异。经过短暂恢复后,所有肌浆[Ca(2+)]和肌节长度参数均恢复到疲劳前水平。未疲劳纤维的pCa-肌节缩短关系与其他研究报道的pCa-力曲线非常相似。收缩之间肌节长度的大幅下降使疲劳数据中的pCa-肌节缩短变得复杂。结论是通过胶原酶消化分离单一纤维是研究收缩性和疲劳动力学的可行制备方法。

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