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自噬与软骨稳态机制在关节健康、衰老和 OA 中的作用。

Autophagy and cartilage homeostasis mechanisms in joint health, aging and OA.

机构信息

Department of Molecular and Experimental Medicine, The Scripps Research Institute, 10550 North Torrey Pines Road, La Jolla, CA 92037, USA.

出版信息

Nat Rev Rheumatol. 2011 Aug 2;7(10):579-87. doi: 10.1038/nrrheum.2011.109.

DOI:10.1038/nrrheum.2011.109
PMID:21808292
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3192496/
Abstract

Osteoarthritis (OA) is the most prevalent joint disease, but neither preventive measures nor disease-modifying drugs are available and a continuing need exists for safe and effective symptom-modifying therapies. Clinical trials of candidate disease-modifying OA drugs in patients with established or advanced disease have not demonstrated their efficacy, but these failed trials have motivated investigation into the mechanisms that maintain joint health. The enhancement of such mechanisms could be a novel approach to reducing the risk of OA. Aging is one of the most important risk factors for OA; however, aging of joint cartilage is a process that is distinct from the subsequent cartilage changes that develop following the onset of OA. This Review focuses on the mechanisms that maintain cell and tissue homeostasis, and how these mechanisms fail during the aging process. Autophagy is a cellular homeostasis mechanism for the removal of dysfunctional organelles and macromolecules. Defective autophagy is involved in the pathogenesis of aging-related diseases and recent observations indicate that this process is compromised in aging cartilage. Augmentation of homeostasis mechanisms is discussed as a novel avenue to delay joint aging and reduce OA risk.

摘要

骨关节炎(OA)是最常见的关节疾病,但目前既没有预防措施,也没有能够改变病情的药物,因此仍然需要安全有效的症状改善疗法。在患有已确诊或晚期疾病的患者中进行候选改变病情的 OA 药物的临床试验并未显示其疗效,但这些失败的试验促使人们研究维持关节健康的机制。增强这些机制可能是降低 OA 风险的一种新方法。衰老 是 OA 的最重要危险因素之一;然而,关节软骨的衰老与 OA 发病后软骨发生的后续变化是不同的过程。本综述重点介绍维持细胞和组织内稳态的机制,以及这些机制在衰老过程中是如何失效的。自噬是一种用于清除功能失调的细胞器和大分子的细胞内稳态机制。有缺陷的自噬与与衰老相关疾病的发病机制有关,最近的观察结果表明,这一过程在衰老的软骨中受到了损害。增强内稳态机制被认为是延缓关节衰老和降低 OA 风险的新途径。

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