Neural Regeneration Research (Jan 2023)

Photobiomodulation provides neuroprotection through regulating mitochondrial fission imbalance in the subacute phase of spinal cord injury

  • Xin Li,
  • Xuan-Kang Wang,
  • Zhi-Jie Zhu,
  • Zhuo-Wen Liang,
  • Peng-Hui Li,
  • Yang-Guang Ma,
  • Tan Ding,
  • Kun Li,
  • Xiao-Shuang Zuo,
  • Cheng Ju,
  • Zhi-Hao Zhang,
  • Zhi-Wen Song,
  • Hui-Lin Quan,
  • Jia-Wei Zhang,
  • Liang Luo,
  • Zhe Wang,
  • Xue-Yu Hu

DOI
https://doi.org/10.4103/1673-5374.366491
Journal volume & issue
Vol. 18, no. 9
pp. 2005 – 2010

Abstract

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Increasing evidence indicates that mitochondrial fission imbalance plays an important role in delayed neuronal cell death. Our previous study found that photobiomodulation improved the motor function of rats with spinal cord injury. However, the precise mechanism remains unclear. To investigate the effect of photobiomodulation on mitochondrial fission imbalance after spinal cord injury, in this study, we treated rat models of spinal cord injury with 60-minute photobiomodulation (810 nm, 150 mW) every day for 14 consecutive days. Transmission electron microscopy results confirmed the swollen and fragmented alterations of mitochondrial morphology in neurons in acute (1 day) and subacute (7 and 14 days) phases. Photobiomodulation alleviated mitochondrial fission imbalance in spinal cord tissue in the subacute phase, reduced neuronal cell death, and improved rat posterior limb motor function in a time-dependent manner. These findings suggest that photobiomodulation targets neuronal mitochondria, alleviates mitochondrial fission imbalance-induced neuronal apoptosis, and thereby promotes the motor function recovery of rats with spinal cord injury.

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