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Mechanical overloading induces GPX4-regulated chondrocyte ferroptosis in osteoarthritis via Piezo1 channel facilitated calcium influx

软骨细胞 压电1 细胞生物学 氧化应激 骨关节炎 化学 程序性细胞死亡 软骨 GPX4 细胞凋亡 生物 医学 生物化学 解剖 病理 离子通道 机械敏感通道 受体 过氧化氢酶 替代医学 谷胱甘肽过氧化物酶
作者
Shaoyi Wang,Weiwei Li,Pengfei Zhang,Zihao Wang,Xiaoyuan Ma,Liu C,Krasimir Vasilev,Lei Zhang,Xiaocong Zhou,Liang Liu,John D. Hayball,Shuli Dong,Yuhua Li,Yuan Gao,Lei Cheng,Yunpeng Zhao
出处
期刊:Journal of Advanced Research [Elsevier BV]
卷期号:41: 63-75 被引量:253
标识
DOI:10.1016/j.jare.2022.01.004
摘要

INTRODUCTIONS: Excessive mechanical stress is closely associated with cell death in various conditions. Exposure of chondrocytes to excessive mechanical loading leads to a catabolic response as well as exaggerated cell death. Ferroptosis is a recently identified form of cell death during cell aging and degeneration. However, it's potential association with mechanical stress remains to be illustrated. OBJECTIVES: To identify whether excessive mechanical stress can cause ferroptosis. To explore the role of mechanical overloading in chondrocyte ferroptosis. METHODS: ) mice OA model and chondrocytes cultured with high strain mechanical stress. Furthermore, the role of Piezo1 ion channel in chondrocyte ferroptosis and OA development was explored by using its inhibitor (GsMTx4) and agonist (Yoda1). Additionally, chondrocyte was cultured in calcium-free medium with mechanical stress, and ferroptosis phenotype was tested. RESULTS: Human cartilage and mouse chondrocyte experiments revealed that mechanical overloading can induce GPX4-associated ferroptosis. Conditional knockout of GPX4 in cartilage aggravated experimental OA process, while additional treatment with ferroptosis suppressor protein (FSP-1) and coenzyme Q10 (CoQ10) abated OA development in GPX4-CKO mice. In mouse OA model and chondrocyte experiments, inhibition of Piezo1 channel activity increased GPX4 expression, attenuated ferroptosis phenotype and reduced the severity of osteoarthritis. Additionally, high strain mechanical stress induced ferroptosis damage in chondrocyte was largely abolished by blocking calcium influx through calcium-free medium. CONCLUSIONS: Our findings show that mechanical overloading induces ferroptosis through Piezo1 activation and subsequent calcium influx in chondrocytes, which might provide a potential target for OA treatment.
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