Pericyte-derived fibrotic scarring is conserved across diverse central nervous system lesions

Fibrotic scar tissue limits central nervous system regeneration. Here, Dias et al. show that fibrotic scarring is common in mice and humans, following distinct lesions to the adult brain and spinal cord, and derives from a discrete population of GLAST-expressing perivascular cells.

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Autores principales: David O. Dias, Jannis Kalkitsas, Yildiz Kelahmetoglu, Cynthia P. Estrada, Jemal Tatarishvili, Daniel Holl, Linda Jansson, Shervin Banitalebi, Mahmood Amiry-Moghaddam, Aurélie Ernst, Hagen B. Huttner, Zaal Kokaia, Olle Lindvall, Lou Brundin, Jonas Frisén, Christian Göritz
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2021
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Acceso en línea:https://doaj.org/article/b2cf5ecacb394539a29e9965db99ad35
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spelling oai:doaj.org-article:b2cf5ecacb394539a29e9965db99ad352021-12-02T17:23:40ZPericyte-derived fibrotic scarring is conserved across diverse central nervous system lesions10.1038/s41467-021-25585-52041-1723https://doaj.org/article/b2cf5ecacb394539a29e9965db99ad352021-09-01T00:00:00Zhttps://doi.org/10.1038/s41467-021-25585-5https://doaj.org/toc/2041-1723Fibrotic scar tissue limits central nervous system regeneration. Here, Dias et al. show that fibrotic scarring is common in mice and humans, following distinct lesions to the adult brain and spinal cord, and derives from a discrete population of GLAST-expressing perivascular cells.David O. DiasJannis KalkitsasYildiz KelahmetogluCynthia P. EstradaJemal TatarishviliDaniel HollLinda JanssonShervin BanitalebiMahmood Amiry-MoghaddamAurélie ErnstHagen B. HuttnerZaal KokaiaOlle LindvallLou BrundinJonas FrisénChristian GöritzNature PortfolioarticleScienceQENNature Communications, Vol 12, Iss 1, Pp 1-24 (2021)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
David O. Dias
Jannis Kalkitsas
Yildiz Kelahmetoglu
Cynthia P. Estrada
Jemal Tatarishvili
Daniel Holl
Linda Jansson
Shervin Banitalebi
Mahmood Amiry-Moghaddam
Aurélie Ernst
Hagen B. Huttner
Zaal Kokaia
Olle Lindvall
Lou Brundin
Jonas Frisén
Christian Göritz
Pericyte-derived fibrotic scarring is conserved across diverse central nervous system lesions
description Fibrotic scar tissue limits central nervous system regeneration. Here, Dias et al. show that fibrotic scarring is common in mice and humans, following distinct lesions to the adult brain and spinal cord, and derives from a discrete population of GLAST-expressing perivascular cells.
format article
author David O. Dias
Jannis Kalkitsas
Yildiz Kelahmetoglu
Cynthia P. Estrada
Jemal Tatarishvili
Daniel Holl
Linda Jansson
Shervin Banitalebi
Mahmood Amiry-Moghaddam
Aurélie Ernst
Hagen B. Huttner
Zaal Kokaia
Olle Lindvall
Lou Brundin
Jonas Frisén
Christian Göritz
author_facet David O. Dias
Jannis Kalkitsas
Yildiz Kelahmetoglu
Cynthia P. Estrada
Jemal Tatarishvili
Daniel Holl
Linda Jansson
Shervin Banitalebi
Mahmood Amiry-Moghaddam
Aurélie Ernst
Hagen B. Huttner
Zaal Kokaia
Olle Lindvall
Lou Brundin
Jonas Frisén
Christian Göritz
author_sort David O. Dias
title Pericyte-derived fibrotic scarring is conserved across diverse central nervous system lesions
title_short Pericyte-derived fibrotic scarring is conserved across diverse central nervous system lesions
title_full Pericyte-derived fibrotic scarring is conserved across diverse central nervous system lesions
title_fullStr Pericyte-derived fibrotic scarring is conserved across diverse central nervous system lesions
title_full_unstemmed Pericyte-derived fibrotic scarring is conserved across diverse central nervous system lesions
title_sort pericyte-derived fibrotic scarring is conserved across diverse central nervous system lesions
publisher Nature Portfolio
publishDate 2021
url https://doaj.org/article/b2cf5ecacb394539a29e9965db99ad35
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