Oligodendrocyte Progenitor Cell (OPC) Transplantation is Unlikely to Offer a Means of Preventing X-irradiation Induced Damage in the CNS

Overview

Journal Exp Neurol

Specialty Neurology

Date 2006 Jan 18

PMID 16410004

Citations 14

Authors

Divya M Chari

Jennifer M Gilson

Robin J M Franklin

William F Blakemore

Affiliations

Soon will be listed here.

Abstract

Oligodendrocyte lineage cells [oligodendrocytes and their parent cells, the oligodendrocyte progenitor cells (OPCs)] are depleted by X-irradiation and progenitor cell transplantation has been proposed as a therapeutic strategy to counteract radiation induced myelopathy. Previous studies have demonstrated that oligodendrocyte progenitor cell (OPC) depletion is a prerequisite for establishing transplanted OPCs in normal tissue. One can therefore predict that the extent and timing of OPC depletion and regeneration following X-irradiation will be crucial factors in determining the feasibility of this therapeutic approach. To address this issue, we have examined the time course of OPC depletion and regeneration following a range of X-irradiation doses (5 to 40 Gy), and its relationship to establishing transplanted OPCs in X-irradiated tissue. Doses above 10 Gy resulted in rapid death of OPCs. With doses up to 20 Gy, surviving X-irradiated OPCs were capable of robust regeneration, restoring normal densities within 6 weeks. Transplanted OPCs could only be established in tissue that had been exposed to > or =20 Gy. Since 20 Gy is close to the ED50 for radiation necrosis, our findings demonstrate the limitation of OPC replacement strategies.

Citing Articles

Unlocking the Potential of Ultra-High Dose Fractionated Radiation for Effective Treatment of Glioblastoma in Mice.

Lan X, Kalkowski L, Chu C, Jablonska A, Li S, Kai M J Cancer. 2024; 15(13):4060-4071.

PMID: 38947383 PMC: 11212101. DOI: 10.7150/jca.95148.

Unlocking the potential of ultra-high dose fractionated radiation for effective treatment of glioblastoma.

Lan X, Kalkowski L, Chu C, Jablonska A, Li S, Kai M Res Sq. 2023; .

PMID: 37961626 PMC: 10635404. DOI: 10.21203/rs.3.rs-3500563/v1.

Prevention and treatment of radiotherapy-induced side effects.

Barazzuol L, Coppes R, van Luijk P Mol Oncol. 2020; 14(7):1538-1554.

PMID: 32521079 PMC: 7332214. DOI: 10.1002/1878-0261.12750.

Brief review: Can modulating DNA methylation state help the clinical application of oligodendrocyte precursor cells as a source of stem cell therapy?.

Egawa N, Chung K, Takahashi R, Lo E, Inoue H, Arai K Brain Res. 2019; 1723:146386.

PMID: 31419426 PMC: 6785205. DOI: 10.1016/j.brainres.2019.146386.

White Matter is the Predilection Site of Late-Delayed Radiation-Induced Brain Injury in Non-Human Primates.

Andrews R, Dugan G, Peiffer A, Hawkins G, Hanbury D, Bourland J Radiat Res. 2019; 191(3):217-231.

PMID: 30694733 PMC: 6422025. DOI: 10.1667/RR15263.1.