Vitamin D remyelinates rats (perhaps remyelinates human MS) – Dec 2019

Vitamin D increases remyelination by promoting oligodendrocyte lineage differentiation.

Brain Behav. 2019 Dec 13:e01498. doi: 10.1002/brb3.1498.
Gomez-Pinedo U1, Cuevas JA1, Benito-Martín MS1, Moreno-Jiménez L1, Esteban-Garcia N1, Torre-Fuentes L1, Matías-Guiu JA1, Pytel V1, Montero P1, Matías-Guiu J1.

VitaminDWiki

Founder of VitaminDWiki had wondered for 8 years how high-dose Vitamin D could remyelinate those with Multiple Sclerosis

Before = 2008
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Starting daily dose 25,000 IU; increased in stages to 80,000 IU on October 28, 2010. Asymptomatic since 2010.

After = 2013
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 Download the PDF from VitaminDWiki

One of the many charts

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A few columns from a table of Vitamin D and remyelination

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INTRODUCTION:
Several experimental studies have suggested the potential remyelinating effects of vitamin D (VitD) supplements regardless of the presence of VitD deficiency. This study aims to analyze neurogenesis in a model of toxic demyelination in order to evaluate the effects of VitD on demyelination and remyelination.

MATERIAL AND METHODS:
We used 24 male Wistar rats that had received surgical lesions to the corpus callosum and were injected with lysolecithin. Rats were divided into three groups:

  • Group 1 included eight rats with lesions to the corpus callosum but not lysolecithin injections (sham group),
  • group 2 included eight rats with lesions to the corpus callosum that were injected with lysolecithin (lysolecithin group), and
  • group 3 included eight rats with lesions that were injected with lysolecithin and received VitD (VitD group).

We analyzed neurogenesis both in the subventricular zone and at the lesion site.

RESULTS:
Administration of VitD promotes the proliferation and differentiation of neural stem cells in the subventricular zone and the migration of these cells to the lesion site in the corpus callosum; these cells subsequently differentiate into oligodendrocyte lineage cells and produce myelin basic protein. This phenomenon was not caused by microglial activation, which was less marked in rats receiving VitD. Megalin expression did not increase at the lesion site, which suggests that VitD is internalized by other mechanisms.

CONCLUSION:
Our results support the hypothesis that regardless of the presence of VitD deficiency, treatment with VitD may contribute to remyelination by promoting the proliferation of oligodendrocyte precursor cells.

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