Autophagy in Osteoarthritis: A Double-Edged Sword in Cartilage Aging and Mechanical Stress Response: A Systematic Review.
Dong-Yeong LeeMd Entaz BaharChang-Won KimMin-Seok SeoMyung-Geun SongSang-Youn SongSoung-Yon KimDeok Ryong KimDong-Hee KimPublished in: Journal of clinical medicine (2024)
Background : Although osteoarthritis (OA) development is epidemiologically multifactorial, a primary underlying mechanism is still under debate. Understanding the pathophysiology of OA remains challenging. Recently, experts have focused on autophagy as a contributor to OA development. Method : To better understand the pathogenesis of OA, we survey the literature on the role of autophagy and the molecular mechanisms of OA development. To identify relevant studies, we used controlled vocabulary and free text keywords to search the MEDLINE, EMBASE, the Cochrane Central Register of Controlled Trials, Web of Science, and SCOPUS database. Thirty-one studies were included for data extraction and systematic review. Among these studies, twenty-five studies investigated the effects of autophagy in aging and OA chondrocytes, six studies examined the effects of autophagy in normal human chondrocytes, and only one study investigated the effects of mechanical stress-induced autophagy on the development of OA in normal chondrocytes. Results : The studies suggest that autophagy activation prevents OA by exerting cell-protective effects in normal human chondrocytes. However, in aging and osteoarthritis (OA) chondrocytes, the role of autophagy is intricate, as certain studies indicate that stimulating autophagy in these cells can have a cytotoxic effect, while others propose that it may have a protective (cytoprotective) effect against damage or degeneration. Conclusions : Mechanical stress-induced autophagy is also thought to be involved in the development of OA, but further research is required to identify the precise mechanism. Thus, autophagy contributions should be interpreted with caution in aging and the types of OA cartilage.
Keyphrases
- cell death
- endoplasmic reticulum stress
- knee osteoarthritis
- oxidative stress
- signaling pathway
- stress induced
- systematic review
- induced apoptosis
- case control
- rheumatoid arthritis
- extracellular matrix
- emergency department
- stem cells
- machine learning
- public health
- mass spectrometry
- single cell
- high resolution
- cell proliferation
- pluripotent stem cells