Androgen action on myogenesis throughout the lifespan; comparison with neurogenesis

IF 6.5 1区 医学 Q1 ENDOCRINOLOGY & METABOLISM
Sabrina Tzivia Barsky , Douglas Ashley Monks
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引用次数: 0

Abstract

Androgens’ pleiotropic actions in promoting sex differences present not only a challenge to providing a comprehensive account of their function, but also an opportunity to gain insights by comparing androgenic actions across organ systems. Although often overlooked by neuroscientists, skeletal muscle is another androgen-responsive organ system which shares with the nervous system properties of electrochemical excitability, behavioral relevance, and remarkable capacity for adaptive plasticity. Here we review androgenic regulation of mitogenic plasticity in skeletal muscle with the goal of identifying areas of interest to those researching androgenic mechanisms mediating sexual differentiation of neurogenesis. We use an organizational-activational framework to relate broad areas of similarity and difference between androgen effects on mitogenesis in muscle and brain throughout the lifespan, from early organogenesis, through pubertal organization, adult activation, and aging. The focus of the review is androgenic regulation of muscle-specific stem cells (satellite cells), which share with neural stem cells essential functions in development, plasticity, and repair, albeit with distinct, muscle-specific features. Also considered are areas of paracrine and endocrine interaction between androgen action on muscle and nervous system, including mediation of neural plasticity of innervating and distal neural populations by muscle-produced trophic factors.

一生中雄激素对肌肉形成的作用;神经发生的比较
雄激素在促进性别差异方面的多效性作用不仅是对其功能进行全面描述的挑战,也是通过比较不同器官系统的雄激素作用来获得见解的机会。尽管经常被神经科学家忽视,但骨骼肌是另一个雄激素反应性器官系统,它与神经系统具有电化学兴奋性、行为相关性和显著的适应性可塑性。在此,我们综述了骨骼肌中雄激素对有丝分裂可塑性的调节,目的是确定那些研究介导神经发生性分化的雄激素机制的人感兴趣的领域。我们使用组织激活框架来联系雄激素在整个生命周期中对肌肉和大脑有丝分裂的影响之间的广泛相似性和差异性,从早期器官发生到青春期组织、成年激活和衰老。综述的重点是肌肉特异性干细胞(卫星细胞)的雄激素调节,它与神经干细胞在发育、可塑性和修复方面具有基本功能,尽管具有独特的肌肉特异性特征。还考虑了雄激素对肌肉和神经系统的作用之间的旁分泌和内分泌相互作用区域,包括肌肉产生的营养因子对神经支配和远端神经群体的神经可塑性的调节。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Frontiers in Neuroendocrinology
Frontiers in Neuroendocrinology 医学-内分泌学与代谢
CiteScore
13.30
自引率
6.80%
发文量
62
审稿时长
68 days
期刊介绍: Frontiers in Neuroendocrinology (FIN) publishes a wide range of informative articles including comprehensive reviews, systematic reviews, opinion pieces, and meta-analyses. While the majority of reviews are invited, we also embrace unsolicited reviews and meta-analyses, as well as proposals for thematic special issues, provided they meet our rigorous quality standards. In addition, we encourage authors to submit commentaries that concisely present fresh ideas or offer further analysis to delve deeper into the implications of an article published in our journal.
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