Multiple sclerosis iPS-derived oligodendroglia conserve their properties to functionally interact with axons and glia in vivo

Remyelination failure in multiple sclerosis (MS) is associated with a migration/differentiation block of oligodendroglia. The reason for this block is highly debated. It could result from disease-related extrinsic or intrinsic regulators in oligodendroglial biology. To avoid confounding immune-media...

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Autores principales: Mozafari, Sabah, Starost, Laura, Manot-Saillet, Blandine, Garcia-Diaz, Beatriz, Xu, Yu Kang T., Roussel, Delphine, Levy, Marion J. F., Ottoboni, Linda, Kim, Kee-Pyo, Schöler, Hans R., Kennedy, Timothy E., Antel, Jack P., Martino, Gianvito, Angulo, Maria Cecilia, Kuhlmann, Tanja, Evercooren, Anne Baron-Van
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Association for the Advancement of Science 2020
Materias:
Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7821889/
https://www.ncbi.nlm.nih.gov/pubmed/33277253
http://dx.doi.org/10.1126/sciadv.abc6983
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author Mozafari, Sabah
Starost, Laura
Manot-Saillet, Blandine
Garcia-Diaz, Beatriz
Xu, Yu Kang T.
Roussel, Delphine
Levy, Marion J. F.
Ottoboni, Linda
Kim, Kee-Pyo
Schöler, Hans R.
Kennedy, Timothy E.
Antel, Jack P.
Martino, Gianvito
Angulo, Maria Cecilia
Kuhlmann, Tanja
Evercooren, Anne Baron-Van
author_facet Mozafari, Sabah
Starost, Laura
Manot-Saillet, Blandine
Garcia-Diaz, Beatriz
Xu, Yu Kang T.
Roussel, Delphine
Levy, Marion J. F.
Ottoboni, Linda
Kim, Kee-Pyo
Schöler, Hans R.
Kennedy, Timothy E.
Antel, Jack P.
Martino, Gianvito
Angulo, Maria Cecilia
Kuhlmann, Tanja
Evercooren, Anne Baron-Van
author_sort Mozafari, Sabah
collection PubMed
description Remyelination failure in multiple sclerosis (MS) is associated with a migration/differentiation block of oligodendroglia. The reason for this block is highly debated. It could result from disease-related extrinsic or intrinsic regulators in oligodendroglial biology. To avoid confounding immune-mediated extrinsic effect, we used an immune-deficient mouse model to compare induced pluripotent stem cell–derived oligodendroglia from MS and healthy donors following engraftment in the developing CNS. We show that the MS-progeny behaves and differentiates into oligodendrocytes to the same extent as controls. They generate equal amounts of myelin, with bona fide nodes of Ranvier, and promote equal restoration of their host slow conduction. MS-progeny expressed oligodendrocyte- and astrocyte-specific connexins and established functional connections with donor and host glia. Thus, MS oligodendroglia, regardless of major immune manipulators, are intrinsically capable of myelination and making functional axo-glia/glia-glia connections, reinforcing the view that the MS oligodendrocyte differentiation block is not from major intrinsic oligodendroglial deficits.
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spelling pubmed-78218892021-01-29 Multiple sclerosis iPS-derived oligodendroglia conserve their properties to functionally interact with axons and glia in vivo Mozafari, Sabah Starost, Laura Manot-Saillet, Blandine Garcia-Diaz, Beatriz Xu, Yu Kang T. Roussel, Delphine Levy, Marion J. F. Ottoboni, Linda Kim, Kee-Pyo Schöler, Hans R. Kennedy, Timothy E. Antel, Jack P. Martino, Gianvito Angulo, Maria Cecilia Kuhlmann, Tanja Evercooren, Anne Baron-Van Sci Adv Research Articles Remyelination failure in multiple sclerosis (MS) is associated with a migration/differentiation block of oligodendroglia. The reason for this block is highly debated. It could result from disease-related extrinsic or intrinsic regulators in oligodendroglial biology. To avoid confounding immune-mediated extrinsic effect, we used an immune-deficient mouse model to compare induced pluripotent stem cell–derived oligodendroglia from MS and healthy donors following engraftment in the developing CNS. We show that the MS-progeny behaves and differentiates into oligodendrocytes to the same extent as controls. They generate equal amounts of myelin, with bona fide nodes of Ranvier, and promote equal restoration of their host slow conduction. MS-progeny expressed oligodendrocyte- and astrocyte-specific connexins and established functional connections with donor and host glia. Thus, MS oligodendroglia, regardless of major immune manipulators, are intrinsically capable of myelination and making functional axo-glia/glia-glia connections, reinforcing the view that the MS oligodendrocyte differentiation block is not from major intrinsic oligodendroglial deficits. American Association for the Advancement of Science 2020-12-04 /pmc/articles/PMC7821889/ /pubmed/33277253 http://dx.doi.org/10.1126/sciadv.abc6983 Text en Copyright © 2020 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC). https://creativecommons.org/licenses/by-nc/4.0/ https://creativecommons.org/licenses/by-nc/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution-NonCommercial license (https://creativecommons.org/licenses/by-nc/4.0/) , which permits use, distribution, and reproduction in any medium, so long as the resultant use is not for commercial advantage and provided the original work is properly cited.
spellingShingle Research Articles
Mozafari, Sabah
Starost, Laura
Manot-Saillet, Blandine
Garcia-Diaz, Beatriz
Xu, Yu Kang T.
Roussel, Delphine
Levy, Marion J. F.
Ottoboni, Linda
Kim, Kee-Pyo
Schöler, Hans R.
Kennedy, Timothy E.
Antel, Jack P.
Martino, Gianvito
Angulo, Maria Cecilia
Kuhlmann, Tanja
Evercooren, Anne Baron-Van
Multiple sclerosis iPS-derived oligodendroglia conserve their properties to functionally interact with axons and glia in vivo
title Multiple sclerosis iPS-derived oligodendroglia conserve their properties to functionally interact with axons and glia in vivo
title_full Multiple sclerosis iPS-derived oligodendroglia conserve their properties to functionally interact with axons and glia in vivo
title_fullStr Multiple sclerosis iPS-derived oligodendroglia conserve their properties to functionally interact with axons and glia in vivo
title_full_unstemmed Multiple sclerosis iPS-derived oligodendroglia conserve their properties to functionally interact with axons and glia in vivo
title_short Multiple sclerosis iPS-derived oligodendroglia conserve their properties to functionally interact with axons and glia in vivo
title_sort multiple sclerosis ips-derived oligodendroglia conserve their properties to functionally interact with axons and glia in vivo
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7821889/
https://www.ncbi.nlm.nih.gov/pubmed/33277253
http://dx.doi.org/10.1126/sciadv.abc6983
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