Targeting Remyelination in Spinal Cord Injury: Insights and Emerging Therapeutic Strategies

doi:10.1111/cns.70193

Review

. 2024 Dec;30(12):1-15.

doi: 10.1111/cns.70193.

Targeting Remyelination in Spinal Cord Injury: Insights and Emerging Therapeutic Strategies

Abdullah Al Mamun^{1

2}, Zhou Quan¹, Peiwu Geng¹, Shuanghu Wang¹, Chuxiao Shao¹, Jian Xiao^{1

2

3}

Affiliations

¹ Central Laboratory of The Lishui Hospital of Wenzhou Medical University, The First Affiliated Hospital of Lishui University, Lishui People's Hospital, Lishui, Zhejiang, China.
² Oujiang Laboratory (Zhejiang Lab for Regenerative Medicine, Vision and Brain Health), School of Pharmaceutical Sciences, Wenzhou Medical University, Wenzhou, Zhejiang, China.
³ Department of Wound Healing, The First Affiliated Hospital of Wenzhou Medical University, Wenzhou, Zhejiang, China.

PMID: 39723448
PMCID: PMC11669846
DOI: 10.1111/cns.70193

Review

Targeting Remyelination in Spinal Cord Injury: Insights and Emerging Therapeutic Strategies

Abdullah Al Mamun et al. CNS Neurosci Ther. 2024 Dec.

. 2024 Dec;30(12):1-15.

doi: 10.1111/cns.70193.

Authors

Abdullah Al Mamun^{1

2}, Zhou Quan¹, Peiwu Geng¹, Shuanghu Wang¹, Chuxiao Shao¹, Jian Xiao^{1

2

3}

Affiliations

¹ Central Laboratory of The Lishui Hospital of Wenzhou Medical University, The First Affiliated Hospital of Lishui University, Lishui People's Hospital, Lishui, Zhejiang, China.
² Oujiang Laboratory (Zhejiang Lab for Regenerative Medicine, Vision and Brain Health), School of Pharmaceutical Sciences, Wenzhou Medical University, Wenzhou, Zhejiang, China.
³ Department of Wound Healing, The First Affiliated Hospital of Wenzhou Medical University, Wenzhou, Zhejiang, China.

PMID: 39723448
PMCID: PMC11669846
DOI: 10.1111/cns.70193

Abstract

Introduction: Spinal cord injury (SCI) is a severe neurological disease characterized by significant motor, sensory, and autonomic dysfunctions. SCI is a major global disability cause, often resulting in long-term neurological impairments due to the impeded regeneration and remyelination of axons. A SCI interferes with communication between the brain and the spinal cord networks that control neurological functions. Recent advancements in understanding the molecular and cellular mechanisms of remyelination have opened novel therapeutic interventions.

Method: This review systematically sourced articles related to spinal chord injury, remyelination, regeneration and pathophysiology from major medical databases, including Scopus, PubMed, and Web of Science.

Results: This review discusses the efficacy of targeted therapy in enhancing myelin repair after SCI by identifying key molecules and signaling pathways. This explores the effectiveness of specific pharmacological agents and biological factors in promoting oligodendrocyte precursor cell proliferation, differentiation, and myelin sheath formation using in vitro and in vivo models. Targeted therapies have shown promising results in improving remyelination, providing hope for functional recovery in SCI patients.

Conclusions: This review demonstrates challenges and future perspectives in translating findings into clinical practice, emphasizing safety profiles, delivery method optimization, and combinatory therapy potential. This review also supports the possibility of targeted remyelination therapies as a promising strategy for SCI treatment, paving the way for future clinical applications.

Keywords: neurological impairments; regeneration; remyelination; spinal cord injury.

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Conflict of interest statement

The authors declare no conflicts of interest.

Figures

**FIGURE 1**
The pathophysiology of SCI leads to sensory, motor, and autonomic dysfunction, resulting in paralysis or altered sensation. Primary and secondary injury mechanisms contribute to tissue damage and neurological deficits, complicating both treatment and recovery processes.

**FIGURE 2**
Mesenchymal stem cell transplantation aids functional and anatomical recovery in SCI patients by reducing inflammation and glial scar formation.

**FIGURE 3**
The function and limitations of current SCI treatments. Current treatments for SCI, including surgical interventions, pharmacotherapy, etc., have limitations, including incomplete function restoration, complications, and high costs.

**FIGURE 4**
This process discusses demyelination and remyelination following SCI. SCI leads to demyelination, a loss of myelin sheath that impairs nerve function. Enhancing remyelination mechanisms could provide therapeutic intervention.

See this image and copyright information in PMC

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References

1. Khorasanizadeh M., Yousefifard M., Eskian M., et al., “Neurological Recovery Following Traumatic Spinal Cord Injury: A Systematic Review and Meta‐Analysis,” Journal of Neurosurgery: Spine 30, no. 5 (2019): 683–699. - PubMed
1. Katoh H., Yokota K., and Fehlings M. G., “Regeneration of Spinal Cord Connectivity Through Stem Cell Transplantation and Biomaterial Scaffolds,” Frontiers in Cellular Neuroscience 13 (2019): 248. - PMC - PubMed
1. Mekhail M., Almazan G., and Tabrizian M., “Oligodendrocyte‐Protection and Remyelination Post‐Spinal Cord Injuries: A Review,” Progress in Neurobiology 96, no. 3 (2012): 322–339. - PubMed
1. Hu X., Xu W., Ren Y., et al., “Spinal Cord Injury: Molecular Mechanisms and Therapeutic Interventions,” Signal Transduction and Targeted Therapy 8, no. 1 (2023): 245. - PMC - PubMed
1. Dumont R. J., Okonkwo D. O., Verma S., et al., “Acute Spinal Cord Injury, Part I: Pathophysiologic Mechanisms,” Clinical Neuropharmacology 24, no. 5 (2001): 254–264. - PubMed

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[1] Khorasanizadeh M., Yousefifard M., Eskian M., et al., “Neurological Recovery Following Traumatic Spinal Cord Injury: A Systematic Review and Meta‐Analysis,” Journal of Neurosurgery: Spine 30, no. 5 (2019): 683–699. - PubMed

[2] Khorasanizadeh M., Yousefifard M., Eskian M., et al., “Neurological Recovery Following Traumatic Spinal Cord Injury: A Systematic Review and Meta‐Analysis,” Journal of Neurosurgery: Spine 30, no. 5 (2019): 683–699. - PubMed

[3] Katoh H., Yokota K., and Fehlings M. G., “Regeneration of Spinal Cord Connectivity Through Stem Cell Transplantation and Biomaterial Scaffolds,” Frontiers in Cellular Neuroscience 13 (2019): 248. - PMC - PubMed

[4] Katoh H., Yokota K., and Fehlings M. G., “Regeneration of Spinal Cord Connectivity Through Stem Cell Transplantation and Biomaterial Scaffolds,” Frontiers in Cellular Neuroscience 13 (2019): 248. - PMC - PubMed

[5] Mekhail M., Almazan G., and Tabrizian M., “Oligodendrocyte‐Protection and Remyelination Post‐Spinal Cord Injuries: A Review,” Progress in Neurobiology 96, no. 3 (2012): 322–339. - PubMed

[6] Mekhail M., Almazan G., and Tabrizian M., “Oligodendrocyte‐Protection and Remyelination Post‐Spinal Cord Injuries: A Review,” Progress in Neurobiology 96, no. 3 (2012): 322–339. - PubMed

[7] Hu X., Xu W., Ren Y., et al., “Spinal Cord Injury: Molecular Mechanisms and Therapeutic Interventions,” Signal Transduction and Targeted Therapy 8, no. 1 (2023): 245. - PMC - PubMed

[8] Hu X., Xu W., Ren Y., et al., “Spinal Cord Injury: Molecular Mechanisms and Therapeutic Interventions,” Signal Transduction and Targeted Therapy 8, no. 1 (2023): 245. - PMC - PubMed

[9] Dumont R. J., Okonkwo D. O., Verma S., et al., “Acute Spinal Cord Injury, Part I: Pathophysiologic Mechanisms,” Clinical Neuropharmacology 24, no. 5 (2001): 254–264. - PubMed

[10] Dumont R. J., Okonkwo D. O., Verma S., et al., “Acute Spinal Cord Injury, Part I: Pathophysiologic Mechanisms,” Clinical Neuropharmacology 24, no. 5 (2001): 254–264. - PubMed

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Targeting Remyelination in Spinal Cord Injury: Insights and Emerging Therapeutic Strategies

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Targeting Remyelination in Spinal Cord Injury: Insights and Emerging Therapeutic Strategies

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