Multiple sclerosis: Re-expression of a developmental pathway that restricts oligodendrocyte maturation

John, Gareth R.; Shankar, Sai Latha; Shafit‐Zagardo, Bridget; Massimi, Aldo; Lee, Sunhee C.; Raine, Cedric S.; Brosnan, Celia F.

doi:10.1038/nm781

Cited by 449 publications

(409 citation statements)

References 25 publications

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“…Active inhibition of resident OPCs is suggested by the sharp border of demyelinated plaque, surrounded by OPCs [39,76,77]. It was suggested, for example, that re-expression of Notch1, a regulator of oligodendrocyte progenitor differentiation, inhibits remyelination in MS [85]. Yet targeted ablation of Notch1 did not enhance remyelination in experimental animals [86].…”

Section: Myelin Regeneration Fails In Msmentioning

confidence: 99%

Cell Therapy for Multiple Sclerosis

Ben‐Hur

2011

Neurotherapeutics

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The spontaneous recovery observed in the early stages of multiple sclerosis (MS) is substituted with a later progressive course and failure of endogenous processes of repair and remyelination. Although this is the basic rationale for cell therapy, it is not clear yet to what degree the MS brain is amenable for repair and whether cell therapy has an advantage in comparison to other strategies to enhance endogenous remyelination. Central to the promise of stem cell therapy is the therapeutic plasticity, by which neural precursors can replace damaged oligodendrocytes and myelin, and also effectively attenuate the autoimmune process in a local, nonsystemic manner to protect brain cells from further injury, as well as facilitate the intrinsic capacity of the brain for recovery. These fundamental immunomodulatory and neurotrophic properties are shared by stem cells of different sources. By using different routes of delivery, cells may target both affected white matter tracts and the perivascular niche where the trafficking of immune cells occur. It is unclear yet whether the therapeutic properties of transplanted cells are maintained with the duration of time. The application of neural stem cell therapy (derived from fetal brain or from human embryonic stem cells) will be realized once their purification, mass generation, and safety are guaranteed. However, previous clinical experience with bone marrow stromal (mesenchymal) stem cells and the relative easy expansion of autologous cells have opened the way to their experimental application in MS. An initial clinical trial has established the probable safety of their intravenous and intrathecal delivery. Short-term follow-up observed immunomodulatory effects and clinical benefit justifying further clinical trials.

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Section: Myelin Regeneration Fails In Msmentioning

confidence: 99%

Cell Therapy for Multiple Sclerosis

Ben‐Hur

2011

Neurotherapeutics

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“…But more importantly, given the growing interest to develop pharmacological inhibitors against the Wnt pathway in cancer therapy [59], it might be possible in the near future to use Wnt inhibitors to stimulate OPC differentiation and improve CNS remyelination in MS. One of the potential contributors of remyelination efficiency in MS is thought to be reactive astrocytosis in lesions, which can potentially have both beneficial and detrimental roles [60,61]. In search of putative astrocytic inhibitors of remyelination, a microarray analysis was performed on purified human astrocytes treated with cytokines that are known to be significantly upregulated in the brains of MS patients [62]. This led to the identification of the Notch ligand, Jagged in astrocytes, which is upregulated in response to the cytokine TGF-β.…”

Section: Wnt Signalingmentioning

confidence: 99%

“…This led to the identification of the Notch ligand, Jagged in astrocytes, which is upregulated in response to the cytokine TGF-β. Notch1 and its effector Hes5 were detected in immature oligodendrocytes of MS lesions and following demyelination in mice [62,63]. When cultured human OPCs were exposed to Jagged, these OPCs failed to mature [62].…”

Section: Wnt Signalingmentioning

confidence: 99%

“…Notch1 and its effector Hes5 were detected in immature oligodendrocytes of MS lesions and following demyelination in mice [62,63]. When cultured human OPCs were exposed to Jagged, these OPCs failed to mature [62]. However, the role of Notch1 signaling on OPC differentiation during remyelination in vivo has remained inconclusive for several reasons.…”

Section: Wnt Signalingmentioning

confidence: 99%

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Myelin Regeneration in Multiple Sclerosis: Targeting Endogenous Stem Cells

et al. 2011

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Regeneration of myelin sheaths (remyelination) after central nervous system demyelination is important to restore saltatory conduction and to prevent axonal loss. In multiple sclerosis, the insufficiency of remyelination leads to the irreversible degeneration of axons and correlated clinical decline. Therefore, a regenerative strategy to encourage remyelination may protect axons and improve symptoms in multiple sclerosis. We highlight recent studies on factors that influence endogenous remyelination and potential promising pharmacological targets that may be considered for enhancing central nervous system remyelination.

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“…12 The NOTCH pathway is most probably involved in a limited remyelination process taking place during MS. 13 The complement 4 (C4A/B) is known to be involved in the demyelination process of MS. 14 A dysfunction of NEU1 gene may lead to neurological disorders. 15 PSMB8 and PSMB9 play a role in the aforementioned ubiquitinproteasome system.…”

Section: Mhc Consensusmentioning

confidence: 99%

Intergenomic consensus in multifactorial inheritance loci: the case of multiple sclerosis

Serrano-Fernández

Ibrahim

et al. 2004

Genes Immun

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Genetic linkage and association studies define chromosomal regions, quantitative trait loci (QTLs), which influence the phenotype of polygenic diseases. Here, we describe a global approach to determine intergenomic consensus of those regions in order to fine map QTLs and select particularly promising candidate genes for disease susceptibility or other polygenic traits. Exemplarily, human multiple sclerosis (MS) susceptibility regions were compared for sequence similarity with mouse and rat QTLs in its animal model experimental allergic encephalomyelitis (EAE). The number of intergenomic MS/EAE consensus genes (295) is significantly higher than expected if the animal model was unrelated to the human disease. Hence, this approach contributes to the empirical evaluation of animal models for their applicability to the study of human diseases.

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Multiple sclerosis: Re-expression of a developmental pathway that restricts oligodendrocyte maturation

Cited by 449 publications

References 25 publications

Cell Therapy for Multiple Sclerosis

Cell Therapy for Multiple Sclerosis

Myelin Regeneration in Multiple Sclerosis: Targeting Endogenous Stem Cells

Intergenomic consensus in multifactorial inheritance loci: the case of multiple sclerosis

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