4.7 Article

Photobiomodulation promotes repair following spinal cord injury by restoring neuronal mitochondrial bioenergetics via AMPK/PGC-1α/TFAM pathway

Journal

FRONTIERS IN PHARMACOLOGY
Volume 13, Issue -, Pages -

Publisher

FRONTIERS MEDIA SA
DOI: 10.3389/fphar.2022.991421

Keywords

spinal cord injury; photobiomodulation; mitochondria; AMPK; PGC-1 alpha; TFAM; neuron

Funding

  1. Natural Science Foundation of China [81070996, 81572151]
  2. Shaanxi Provincial Key RD Program [2020ZDLSF02-05, 2021ZDLSF02-10, 2021SF-029]
  3. Everest Project of Military Medicine of Air Force Medical University [2018RCFC02]
  4. Boosting project of the First Affiliated Hospital of the Air Force Military Medical University [XJZT19Z22, XJZT21L01]

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This study found that PBM could promote the recovery of mitochondrial respiratory chain complex activity, increase ATP production, alleviate neuronal apoptosis, and reverse motor dysfunction after SCI in rats. The neuroprotective effects of PBM were mediated by activation of the AMPK/PGC-1 alpha/TFAM pathway to restore mitochondrial bioenergetics.
Background: Insufficient neuronal mitochondrial bioenergetics supply occurs after spinal cord injury (SCI), leading to neuronal apoptosis and impaired motor function. Previous reports have shown that photobiomodulation (PBM) could reduce neuronal apoptosis and promote functional recovery, but the underlying mechanism remains unclear. Therefore, we aimed to investigate whether PBM improved prognosis by promoting neuronal mitochondrial bioenergetics after SCI.Methods: Sprague Dawley rats were randomly divided into four groups: a Sham group, an SCI group, an SCI + PBM group and an SCI + PBM + Compound C group. After SCI model was established, PBM and Compound C (an AMPK inhibitor) injection were carried out. The level of neuron apoptosis, the recovery of motor function and mitochondrial function were observed at different times (7, 14, and 28 days). The AMPK/PGC-1 alpha/TFAM pathway was hypothesized to be a potential target through which PBM could affect neuronal mitochondrial bioenergetics. In vitro, ventral spinal cord 4.1 (VSC4.1) cells were irradiated with PBM and cotreated with Compound C after oxygen and glucose deprivation (OGD).Results: PBM promoted the recovery of mitochondrial respiratory chain complex activity, increased ATP production, alleviated neuronal apoptosis and reversed motor dysfunction after SCI. The activation of the AMPK/PGC-1 alpha/TFAM pathway after SCI were facilitated by PBM but inhibited by Compound C. Equally important, PBM could inhibit OGD-induced VSC4.1 cell apoptosis by increasing ATP production whereas these changes could be abolished by Compound C.Conclusion: PBM activated AMPK/PGC-1 alpha/TFAM pathway to restore mitochondrial bioenergetics and exerted neuroprotective effects after SCI.

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