Selenium-SelK-GPX4 Axis Protects Nucleus Pulposus Cells Against Mechanical Overloading-induced Ferroptosis and Attenuates Senescence of Intervertebral Disc

Overview

Journal Cell Mol Life Sci

Publisher Springer

Specialty Biology

Date 2024 Jan 22

PMID 38252317

Authors

Chunwang Jia

Ziqian Xiang

Pengfei Zhang

Long Liu

Xuetao Zhu

Ruixuan Yu

Zhicheng Liu

Shaoyi Wang

Kaiwen Liu

Zihao Wang

Krasimir Vasilev

Shuanhu Zhou

Ziwen Geng

Xinyu Liu

Yunpeng Zhao

Yuan Gao

Lei Cheng

Yuhua Li

Affiliations

Soon will be listed here.

Abstract

Intervertebral disc degeneration (IVDD) is one of the most prevalent spinal degenerative disorders and imposes places heavy medical and economic burdens on individuals and society. Mechanical overloading applied to the intervertebral disc (IVD) has been widely recognized as an important cause of IVDD. Mechanical overloading-induced chondrocyte ferroptosis was reported, but the potential association between ferroptosis and mechanical overloading remains to be illustrated in nucleus pulposus (NP) cells. In this study, we discovered that excessive mechanical loading induced ferroptosis and endoplasmic reticulum (ER) stress, which were detected by mitochondria and associated markers, by increasing the intracellular free Ca level through the Piezo1 ion channel localized on the plasma membrane and ER membrane in NP cells. Besides, we proposed that intracellular free Ca level elevation and the activation of ER stress are positive feedback processes that promote each other, consistent with the results that the level of ER stress in coccygeal discs of aged Piezo1-CKO mice were significantly lower than that of aged WT mice. Then, we confirmed that selenium supplementation decreased intracellular free Ca level by mitigating ER stress through upregulating Selenoprotein K (SelK) expression. Besides, ferroptosis caused by the impaired production and function of Glutathione peroxidase 4 (GPX4) due to mechanical overloading-induced calcium overload could be improved by selenium supplementation through Se-GPX4 axis and Se-SelK axis in vivo and in vitro, eventually presenting the stabilization of the extracellular matrix (ECM). Our findings reveal the important role of ferroptosis in mechanical overloading-induced IVDD, and selenium supplementation promotes significance to attenuate ferroptosis and thus alleviates IVDD, which might provide insights into potential therapeutic interventions for IVDD.

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