A miR-124-mediated post-transcriptional mechanism controlling the cell fate switch of astrocytes to induced neurons

The microRNA (miRNA) miR-124 has been employed supplementary to neurogenic transcription factors (TFs) and other miRNAs to enhance direct neurogenic conversion. The aim of this study was to investigate whether miR-124 is sufficient to drive direct reprogramming of astrocytes to induced neurons (iNs)...

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Autores principales: Papadimitriou, Elsa, Koutsoudaki, Paraskevi N., Thanou, Irini, Karagkouni, Dimitra, Karamitros, Timokratis, Chroni-Tzartou, Dafni, Gaitanou, Maria, Gkemisis, Christos, Margariti, Maria, Xingi, Evangelia, Tzartos, Socrates J., Hatzigeorgiou, Artemis G., Thomaidou, Dimitra
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2023
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10147664/
https://www.ncbi.nlm.nih.gov/pubmed/36963393
http://dx.doi.org/10.1016/j.stemcr.2023.02.009
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author Papadimitriou, Elsa
Koutsoudaki, Paraskevi N.
Thanou, Irini
Karagkouni, Dimitra
Karamitros, Timokratis
Chroni-Tzartou, Dafni
Gaitanou, Maria
Gkemisis, Christos
Margariti, Maria
Xingi, Evangelia
Tzartos, Socrates J.
Hatzigeorgiou, Artemis G.
Thomaidou, Dimitra
author_facet Papadimitriou, Elsa
Koutsoudaki, Paraskevi N.
Thanou, Irini
Karagkouni, Dimitra
Karamitros, Timokratis
Chroni-Tzartou, Dafni
Gaitanou, Maria
Gkemisis, Christos
Margariti, Maria
Xingi, Evangelia
Tzartos, Socrates J.
Hatzigeorgiou, Artemis G.
Thomaidou, Dimitra
author_sort Papadimitriou, Elsa
collection PubMed
description The microRNA (miRNA) miR-124 has been employed supplementary to neurogenic transcription factors (TFs) and other miRNAs to enhance direct neurogenic conversion. The aim of this study was to investigate whether miR-124 is sufficient to drive direct reprogramming of astrocytes to induced neurons (iNs) on its own and elucidate its independent mechanism of reprogramming action. Our data show that miR-124 is a potent driver of the reprogramming switch of astrocytes toward an immature neuronal fate by directly targeting the RNA-binding protein Zfp36L1 implicated in ARE-mediated mRNA decay and subsequently derepressing Zfp36L1 neurogenic interactome. To this end, miR-124 contribution in iNs’ production largely recapitulates endogenous neurogenesis pathways, being further enhanced upon addition of the neurogenic compound ISX9, which greatly improves iNs’ differentiation and functional maturation. Importantly, miR-124 is potent in guiding direct conversion of reactive astrocytes to immature iNs in vivo following cortical trauma, while ISX9 supplementation confers a survival advantage to newly produced iNs.
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spelling pubmed-101476642023-04-30 A miR-124-mediated post-transcriptional mechanism controlling the cell fate switch of astrocytes to induced neurons Papadimitriou, Elsa Koutsoudaki, Paraskevi N. Thanou, Irini Karagkouni, Dimitra Karamitros, Timokratis Chroni-Tzartou, Dafni Gaitanou, Maria Gkemisis, Christos Margariti, Maria Xingi, Evangelia Tzartos, Socrates J. Hatzigeorgiou, Artemis G. Thomaidou, Dimitra Stem Cell Reports Article The microRNA (miRNA) miR-124 has been employed supplementary to neurogenic transcription factors (TFs) and other miRNAs to enhance direct neurogenic conversion. The aim of this study was to investigate whether miR-124 is sufficient to drive direct reprogramming of astrocytes to induced neurons (iNs) on its own and elucidate its independent mechanism of reprogramming action. Our data show that miR-124 is a potent driver of the reprogramming switch of astrocytes toward an immature neuronal fate by directly targeting the RNA-binding protein Zfp36L1 implicated in ARE-mediated mRNA decay and subsequently derepressing Zfp36L1 neurogenic interactome. To this end, miR-124 contribution in iNs’ production largely recapitulates endogenous neurogenesis pathways, being further enhanced upon addition of the neurogenic compound ISX9, which greatly improves iNs’ differentiation and functional maturation. Importantly, miR-124 is potent in guiding direct conversion of reactive astrocytes to immature iNs in vivo following cortical trauma, while ISX9 supplementation confers a survival advantage to newly produced iNs. Elsevier 2023-03-23 /pmc/articles/PMC10147664/ /pubmed/36963393 http://dx.doi.org/10.1016/j.stemcr.2023.02.009 Text en © 2023 The Authors https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Article
Papadimitriou, Elsa
Koutsoudaki, Paraskevi N.
Thanou, Irini
Karagkouni, Dimitra
Karamitros, Timokratis
Chroni-Tzartou, Dafni
Gaitanou, Maria
Gkemisis, Christos
Margariti, Maria
Xingi, Evangelia
Tzartos, Socrates J.
Hatzigeorgiou, Artemis G.
Thomaidou, Dimitra
A miR-124-mediated post-transcriptional mechanism controlling the cell fate switch of astrocytes to induced neurons
title A miR-124-mediated post-transcriptional mechanism controlling the cell fate switch of astrocytes to induced neurons
title_full A miR-124-mediated post-transcriptional mechanism controlling the cell fate switch of astrocytes to induced neurons
title_fullStr A miR-124-mediated post-transcriptional mechanism controlling the cell fate switch of astrocytes to induced neurons
title_full_unstemmed A miR-124-mediated post-transcriptional mechanism controlling the cell fate switch of astrocytes to induced neurons
title_short A miR-124-mediated post-transcriptional mechanism controlling the cell fate switch of astrocytes to induced neurons
title_sort mir-124-mediated post-transcriptional mechanism controlling the cell fate switch of astrocytes to induced neurons
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10147664/
https://www.ncbi.nlm.nih.gov/pubmed/36963393
http://dx.doi.org/10.1016/j.stemcr.2023.02.009
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