4.5 Article

Clemastine Enhances Myelination, Delays Axonal Loss and Promotes Functional Recovery in Spinal Cord Injury

Journal

NEUROCHEMICAL RESEARCH
Volume 47, Issue 2, Pages 503-515

Publisher

SPRINGER/PLENUM PUBLISHERS
DOI: 10.1007/s11064-021-03465-0

Keywords

Spinal cord injury; Myelination; Axon; Clemastine; Oligodendrocytes

Funding

  1. Open Project Program of the Brain and Intelligence Research Key Laboratory of Chongqing Education Commission of China [BIR2019003]
  2. Chongqing Science & Technology Commission [cstc2020jcyj-msxmX0769]
  3. Yuzhong District Science & Technology Commission [20200135]

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Recent evidence suggests that demyelination and axonal degeneration occur in spinal cord injury during the secondary injury phase. Treatment with clemastine, an FDA-approved drug, was shown to preserve myelin integrity, decrease axonal loss, and improve functional recovery in a rat SCI model. This indicates that myelination-enhancing strategies could potentially be a therapeutic approach for functional recovery in SCI.
Recent evidence has shown that demyelination occurs along with axonal degeneration in spinal cord injury (SCI) during the secondary injury phase. Oligodendrocyte precursor cells (OPC) are present in the lesions but fail to differentiate into mature oligodendrocytes and form new myelin. Given the limited recovery of neuronal functions after SCI in adults without effective treatment available so far, it remains unknown whether enhancing OPC differentiation and myelination could benefit the recovery of SCI. To show the significance of myelin regeneration after SCI, the injury was treated with clemastine in the rat model. Clemastine is an FDA-approved drug that is potent in promoting oligodendrocyte differentiation and myelination in vivo, for four weeks following SCI. Motor function was assessed using sloping boards and grid walking tests and scored according to the Basso, Beattie, and Bresnahan protocol. The myelin integrity and protein expression were evaluated using transmission electron microscopy and immunofluorescence, respectively. The results indicated that clemastine treatment preserves myelin integrity, decreases loss of axons and improves functional recovery in the rat SCI model. The presented data suggest that myelination-enhancing strategies may serve as a potential therapeutic approach for the functional recovery in SCI.

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