Bone Research (Mar 2024)

Piezo1 channel exaggerates ferroptosis of nucleus pulposus cells by mediating mechanical stress-induced iron influx

  • Ziqian Xiang,
  • Pengfei Zhang,
  • Chunwang Jia,
  • Rongkun Xu,
  • Dingren Cao,
  • Zhaoning Xu,
  • Tingting Lu,
  • Jingwei Liu,
  • Xiaoxiong Wang,
  • Cheng Qiu,
  • Wenyang Fu,
  • Weiwei Li,
  • Lei Cheng,
  • Qiang Yang,
  • Shiqing Feng,
  • Lianlei Wang,
  • Yunpeng Zhao,
  • Xinyu Liu

DOI
https://doi.org/10.1038/s41413-024-00317-9
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 15

Abstract

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Abstract To date, several molecules have been found to facilitate iron influx, while the types of iron influx channels remain to be elucidated. Here, Piezo1 channel was identified as a key iron transporter in response to mechanical stress. Piezo1-mediated iron overload disturbed iron metabolism and exaggerated ferroptosis in nucleus pulposus cells (NPCs). Importantly, Piezo1-induced iron influx was independent of the transferrin receptor (TFRC), a well-recognized iron gatekeeper. Furthermore, pharmacological inactivation of Piezo1 profoundly reduced iron accumulation, alleviated mitochondrial ROS, and suppressed ferroptotic alterations in stimulation of mechanical stress. Moreover, conditional knockout of Piezo1 (Col2a1-CreERT Piezo1 flox/flox ) attenuated the mechanical injury-induced intervertebral disc degeneration (IVDD). Notably, the protective effect of Piezo1 deficiency in IVDD was dampened in Piezo1/Gpx4 conditional double knockout (cDKO) mice (Col2a1-CreERT Piezo1 flox/flox /Gpx4 flox/flox ). These findings suggest that Piezo1 is a potential determinant of iron influx, indicating that the Piezo1-iron-ferroptosis axis might shed light on the treatment of mechanical stress-induced diseases.