On the rate-limiting dynamics of force development in muscle.

IF 2.8 2区 生物学 Q2 BIOLOGY Journal of Experimental Biology Pub Date : 2024-11-01 Epub Date: 2024-10-21 DOI:10.1242/jeb.247436
Tim J van der Zee, Jeremy D Wong, Arthur D Kuo
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Abstract

Skeletal muscles produce forces relatively slowly compared with the action potentials that excite them. The dynamics of force production are governed by multiple processes, such as calcium activation, cycling of cross-bridges between myofilaments, and contraction against elastic tissues and the body. These processes have been included piecemeal in some muscle models, but not integrated to reveal which are the most rate limiting. We therefore examined their integrative contributions to force development in two conventional types of muscle models: Hill-type and cross-bridge. We found that no combination of these processes can self-consistently reproduce classic data such as twitch and tetanus. Rather, additional dynamics are needed following calcium activation and facilitating cross-bridge cycling, such as for cooperative myofilament interaction and reconfiguration. We provisionally lump such processes into a simple first-order model of 'force facilitation dynamics' that integrate into a cross-bridge-type muscle model. The proposed model self-consistently reproduces force development for a range of excitations including twitch and tetanus and electromyography-to-force curves. The model's step response reveals relatively small timing contributions of calcium activation (3%), cross-bridge cycling (3%) and contraction (27%) to overall force development of human quadriceps, with the remainder (67%) explained by force facilitation. The same set of model parameters predicts the change in force magnitude (gain) and timing (phase delay) as a function of excitatory firing rate, or as a function of cyclic contraction frequency. Although experiments are necessary to reveal the dynamics of muscle, integrative models are useful for identifying the main rate-limiting processes.

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肌肉力量发展的限速动力学
与激发肌肉的动作电位相比,骨骼肌产生力量的速度相对较慢。肌力产生的动态受多个过程控制,如钙激活、肌丝间的交桥循环以及对弹性组织和身体的收缩。这些过程被零散地纳入一些肌肉模型中,但没有进行整合以揭示哪些是最限制速率的过程。因此,我们在两种传统的肌肉模型--希尔型和交桥模型中研究了它们对力量发展的综合贡献。我们发现,这些过程的组合都无法自洽地再现抽搐和破伤风等经典数据。相反,在钙激活和促进交桥循环之后,还需要额外的动力学过程,例如肌丝的合作互动和重构。我们暂时将这些过程归纳为一个简单的一阶 "力促进动力学 "模型,并将其整合到交桥型肌肉模型中。所提出的模型自洽地再现了包括抽搐、破伤风和肌电图-力曲线在内的一系列兴奋的力量发展。该模型的阶跃响应显示,钙激活(3%)、交桥循环(3%)和收缩(27%)对人类股四头肌整体力量发展的时间贡献相对较小,其余(67%)由力量促进作用解释。同一组模型参数可预测力的大小(增益)和时间(相位延迟)的变化是兴奋性发射率的函数,或周期性收缩频率的函数。尽管有必要通过实验来揭示肌肉的动态变化,但综合模型有助于确定主要的限速过程。
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来源期刊
CiteScore
5.50
自引率
10.70%
发文量
494
审稿时长
1 months
期刊介绍: Journal of Experimental Biology is the leading primary research journal in comparative physiology and publishes papers on the form and function of living organisms at all levels of biological organisation, from the molecular and subcellular to the integrated whole animal.
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