Stem cells in skeletal muscle growth and regeneration in amniotes and teleosts: Emerging themes

Q1 Biochemistry, Genetics and Molecular Biology Wiley Interdisciplinary Reviews: Developmental Biology Pub Date : 2019-11-19 DOI:10.1002/wdev.365
A. Ruparelia, Dhanushika Ratnayake, P. Currie
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引用次数: 6

Abstract

Skeletal muscle is a contractile, postmitotic tissue that retains the capacity to grow and regenerate throughout life in amniotes and teleost. Both muscle growth and regeneration are regulated by obligate tissue resident muscle stem cells. Given that considerable knowledge exists on the myogenic process, recent studies have focused on examining the molecular markers of muscle stem cells, and on the intrinsic and extrinsic signals regulating their function. From this, two themes emerge: firstly, muscle stem cells display remarkable heterogeneity not only with regards to their gene expression profile, but also with respect to their behavior and function; and secondly, the stem cell niche is a critical regulator of muscle stem cell function during growth and regeneration. Here, we will address the current understanding of these emerging themes with emphasis on the distinct processes used by amniotes and teleost, and discuss the challenges and opportunities in the muscle growth and regeneration fields.
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干细胞在羊膜动物和硬骨鱼骨骼肌生长和再生中的作用:新兴主题
骨骼肌是一种可收缩的有丝分裂后组织,在羊膜动物和硬骨鱼的一生中保持生长和再生的能力。肌肉生长和再生都是由专性组织驻留肌肉干细胞调节的。鉴于对肌肉生成过程有相当多的了解,最近的研究主要集中在检查肌肉干细胞的分子标记,以及调节其功能的内在和外在信号。由此,出现了两个主题:首先,肌肉干细胞不仅在基因表达谱方面表现出显著的异质性,而且在行为和功能方面也表现出显著的异质性;其次,干细胞生态位是肌肉干细胞生长和再生过程中功能的关键调节器。在这里,我们将讨论当前对这些新兴主题的理解,重点是羊膜动物和硬骨鱼使用的不同过程,并讨论肌肉生长和再生领域的挑战和机遇。
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期刊介绍: Developmental biology is concerned with the fundamental question of how a single cell, the fertilized egg, ultimately produces a complex, fully patterned adult organism. This problem is studied on many different biological levels, from the molecular to the organismal. Developed in association with the Society for Developmental Biology, WIREs Developmental Biology will provide a unique interdisciplinary forum dedicated to fostering excellence in research and education and communicating key advances in this important field. The collaborative and integrative ethos of the WIREs model will facilitate connections to related disciplines such as genetics, systems biology, bioengineering, and psychology. The topical coverage of WIREs Developmental Biology includes: Establishment of Spatial and Temporal Patterns; Gene Expression and Transcriptional Hierarchies; Signaling Pathways; Early Embryonic Development; Invertebrate Organogenesis; Vertebrate Organogenesis; Nervous System Development; Birth Defects; Adult Stem Cells, Tissue Renewal and Regeneration; Cell Types and Issues Specific to Plants; Comparative Development and Evolution; and Technologies.
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