Developmental, physiologic and phylogenetic perspectives on the expression and regulation of myosin heavy chains in mammalian skeletal muscles.

IF 1.7 3区 生物学 Q4 PHYSIOLOGY
Joseph Foon Yoong Hoh
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Abstract

The kinetics of myosin controls the speed and power of muscle contraction. Mammalian skeletal muscles express twelve kinetically different myosin heavy chain (MyHC) genes which provides a wide range of muscle speeds to meet different functional demands. Myogenic progenitors from diverse craniofacial and somitic mesoderm specify muscle allotypes with different repertoires for MyHC expression. This review provides a brief synopsis on the historical and current views on how cell lineage, neural impulse patterns, and thyroid hormone influence MyHC gene expression in muscles of the limb allotype during development and in adult life and the molecular mechanisms thereof. During somitic myogenesis, embryonic and foetal myoblast lineages form slow and fast primary and secondary myotube ontotypes which respond differently to postnatal neural and thyroidal influences to generate fully differentiated fibre phenotypes. Fibres of a given phenotype may arise from myotubes of different ontotypes which retain their capacity to respond differently to neural and thyroidal influences during postnatal life. This gives muscles physiological plasticity to adapt to fluctuations in thyroid hormone levels and patterns of use. The kinetics of MyHC isoforms vary inversely with animal body mass. Fast 2b fibres are specifically absent in muscles involved in elastic energy saving in hopping marsupials and generally absent in large eutherian mammals. Changes in MyHC expression are viewed in the context of the physiology of the whole animal. The roles of myoblast lineage and thyroid hormone in regulating MyHC gene expression are phylogenetically the most ancient while that of neural impulse patterns the most recent.

哺乳动物骨骼肌中肌球蛋白重链的表达和调控的发育、生理和系统发育观点。
肌球蛋白的动力学控制着肌肉收缩的速度和力量。哺乳动物骨骼肌表达12种动力学上不同的肌球蛋白重链(MyHC)基因,提供了广泛的肌肉速度以满足不同的功能需求。来自不同颅面和体细胞中胚层的肌源性祖细胞指定具有不同MyHC表达谱的肌肉同种异体。本文综述了细胞谱系、神经冲动模式和甲状腺激素如何影响四肢同种异体肌肉MyHC基因在发育和成年期的表达及其分子机制的历史和当前观点。在体细胞肌发生过程中,胚胎和胎儿成肌细胞谱系形成缓慢和快速的原发性和继发性肌管个体型,它们对出生后神经和甲状腺的影响有不同的反应,以产生完全分化的纤维表型。一种特定表型的纤维可能来自不同本体型的肌管,这些肌管在出生后对神经和甲状腺的影响保持不同的反应能力。这使肌肉具有生理可塑性,以适应甲状腺激素水平和使用模式的波动。MyHC亚型的动力学与动物体重成反比。快速2b纤维在跳跃类有袋动物参与弹性能量储存的肌肉中特别缺失,在大型真兽哺乳动物中普遍缺失。MyHC表达的变化是在整个动物生理的背景下观察的。成肌细胞谱系和甲状腺激素在MyHC基因表达调控中的作用在系统发育上是最古老的,而神经冲动模式在MyHC基因表达调控中的作用是最近的。
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来源期刊
CiteScore
3.90
自引率
0.00%
发文量
51
审稿时长
3.5 months
期刊介绍: The Journal of Comparative Physiology B publishes peer-reviewed original articles and reviews on the comparative physiology of invertebrate and vertebrate animals. Special emphasis is placed on integrative studies that elucidate mechanisms at the whole-animal, organ, tissue, cellular and/or molecular levels. Review papers report on the current state of knowledge in an area of comparative physiology, and directions in which future research is needed.
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