The Role of Mitochondria in Mediation of Skeletal Muscle Repair

IF 0.5 Q4 ORTHOPEDICS MLTJ-Muscles Ligaments and Tendons Journal Pub Date : 2023-03-24 DOI:10.3390/muscles2020011
S. Alway, H. Paez, Christopher R Pitzer
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引用次数: 1

Abstract

Musculoskeletal health is directly linked to independence and longevity, but disease and aging impairs muscle mass and health. Complete repair after a pathological or physiological muscle injury is critical for maintaining muscle function, yet muscle repair is compromised after disuse, or in conditions such as metabolic diseases, cancer, and aging. Regeneration of damaged tissue is critically dependent upon achieving the optimal function of satellite cells (muscle stem cells, MSCs). MSC remodeling in muscle repair is highly dependent upon its microenvironment, and metabolic health of MSCs, which is dependent on the functional capacity of their mitochondria. Muscle repair is energy demanding and mitochondria provide the primary source for energy production during regeneration. However, disease and aging induce mitochondrial dysfunction, which limits energy production during muscle regeneration. Nevertheless, the role of mitochondria in muscle repair likely extends beyond the production of ATP and mitochondria could provide potentially important regulatory signaling to MSCs during repair from injury. The scope of current research in muscle regeneration extends from molecules to exosomes, largely with the goal of understanding ways to improve MSC function. This review focuses on the role of mitochondria in skeletal muscle myogenesis/regeneration and repair. A therapeutic strategy for improving muscle mitochondrial number and health will be discussed as a means for enhancing muscle regeneration. Highlights: (a). Mitochondrial dysfunction limits muscle regeneration; (b). Muscle stem cell (MSC) function can be modulated by mitochondria; (c). Enhancing mitochondria in MSCs may provide a strategy for improving muscle regeneration after an injury.
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线粒体在骨骼肌修复中的调解作用
肌肉骨骼健康与独立和长寿直接相关,但疾病和衰老会损害肌肉质量和健康。病理性或生理性肌肉损伤后的完全修复对于维持肌肉功能至关重要,然而肌肉修复在废弃后,或在代谢疾病、癌症和衰老等情况下受到损害。受损组织的再生严重依赖于卫星细胞(肌肉干细胞,MSCs)的最佳功能。肌肉修复中的间充质干细胞重塑高度依赖于其微环境,而间充质干细胞的代谢健康依赖于其线粒体的功能能力。肌肉修复需要能量,线粒体在再生过程中提供能量生产的主要来源。然而,疾病和衰老会导致线粒体功能障碍,从而限制肌肉再生过程中的能量产生。然而,线粒体在肌肉修复中的作用可能超出了ATP的产生,线粒体可能在损伤修复过程中为间充质干细胞提供潜在的重要调节信号。目前肌肉再生研究的范围从分子延伸到外泌体,主要是为了了解改善MSC功能的方法。本文综述了线粒体在骨骼肌肌肉发生/再生和修复中的作用。改善肌肉线粒体数量和健康的治疗策略将作为增强肌肉再生的手段进行讨论。(a).线粒体功能障碍限制肌肉再生;(b)线粒体可调节肌肉干细胞(MSC)功能;(c).增强MSCs中的线粒体可能为促进损伤后肌肉再生提供了一种策略。
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来源期刊
CiteScore
1.30
自引率
0.00%
发文量
51
期刊介绍: MLTJ (Muscle, Ligaments and Tendons Journal) is an open access, peer-reviewed online journal that encompasses all aspects of clinical and basic research studies related to musculoskeletal, ligament, tendon, public health, exercise physiology and kinesiology issues. Muscle, Ligaments and Tendons Journal (MLTJ) provides the platform for exchange of new clinical and scientific information in the most precise and expeditious way to achieve timely dissemination of information and cross-fertilization of ideas. It is the official journal of the Italian Society of Muscles, Ligaments and Tendons (I.S.Mu.L.T.), Società Italiana Terapia con Onde D’urto (S.I.T.O.D.) and Società Italiana Studio Piede e Caviglia (S.I.S.P.E.C)
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