MECP2 mutations affect ciliogenesis: a novel perspective for Rett syndrome and related disorders

Mutations in MECP2 cause several neurological disorders of which Rett syndrome (RTT) represents the best‐defined condition. Although mainly working as a transcriptional repressor, MeCP2 is a multifunctional protein revealing several activities, the involvement of which in RTT remains obscure. Beside...

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Autores principales: Frasca, Angelisa, Spiombi, Eleonora, Palmieri, Michela, Albizzati, Elena, Valente, Maria Maddalena, Bergo, Anna, Leva, Barbara, Kilstrup‐Nielsen, Charlotte, Bianchi, Federico, Di Carlo, Valerio, Di Cunto, Ferdinando, Landsberger, Nicoletta
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2020
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Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7278541/
https://www.ncbi.nlm.nih.gov/pubmed/32383329
http://dx.doi.org/10.15252/emmm.201910270
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author Frasca, Angelisa
Spiombi, Eleonora
Palmieri, Michela
Albizzati, Elena
Valente, Maria Maddalena
Bergo, Anna
Leva, Barbara
Kilstrup‐Nielsen, Charlotte
Bianchi, Federico
Di Carlo, Valerio
Di Cunto, Ferdinando
Landsberger, Nicoletta
author_facet Frasca, Angelisa
Spiombi, Eleonora
Palmieri, Michela
Albizzati, Elena
Valente, Maria Maddalena
Bergo, Anna
Leva, Barbara
Kilstrup‐Nielsen, Charlotte
Bianchi, Federico
Di Carlo, Valerio
Di Cunto, Ferdinando
Landsberger, Nicoletta
author_sort Frasca, Angelisa
collection PubMed
description Mutations in MECP2 cause several neurological disorders of which Rett syndrome (RTT) represents the best‐defined condition. Although mainly working as a transcriptional repressor, MeCP2 is a multifunctional protein revealing several activities, the involvement of which in RTT remains obscure. Besides being mainly localized in the nucleus, MeCP2 associates with the centrosome, an organelle from which primary cilia originate. Primary cilia function as “sensory antennae” protruding from most cells, and a link between primary cilia and mental illness has recently been reported. We herein demonstrate that MeCP2 deficiency affects ciliogenesis in cultured cells, including neurons and RTT fibroblasts, and in the mouse brain. Consequently, the cilium‐related Sonic Hedgehog pathway, which is essential for brain development and functioning, is impaired. Microtubule instability participates in these phenotypes that can be rescued by HDAC6 inhibition together with the recovery of RTT‐related neuronal defects. Our data indicate defects of primary cilium as a novel pathogenic mechanism that by contributing to the clinical features of RTT might impact on proper cerebellum/brain development and functioning, thus providing a novel therapeutic target.
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spelling pubmed-72785412020-06-09 MECP2 mutations affect ciliogenesis: a novel perspective for Rett syndrome and related disorders Frasca, Angelisa Spiombi, Eleonora Palmieri, Michela Albizzati, Elena Valente, Maria Maddalena Bergo, Anna Leva, Barbara Kilstrup‐Nielsen, Charlotte Bianchi, Federico Di Carlo, Valerio Di Cunto, Ferdinando Landsberger, Nicoletta EMBO Mol Med Articles Mutations in MECP2 cause several neurological disorders of which Rett syndrome (RTT) represents the best‐defined condition. Although mainly working as a transcriptional repressor, MeCP2 is a multifunctional protein revealing several activities, the involvement of which in RTT remains obscure. Besides being mainly localized in the nucleus, MeCP2 associates with the centrosome, an organelle from which primary cilia originate. Primary cilia function as “sensory antennae” protruding from most cells, and a link between primary cilia and mental illness has recently been reported. We herein demonstrate that MeCP2 deficiency affects ciliogenesis in cultured cells, including neurons and RTT fibroblasts, and in the mouse brain. Consequently, the cilium‐related Sonic Hedgehog pathway, which is essential for brain development and functioning, is impaired. Microtubule instability participates in these phenotypes that can be rescued by HDAC6 inhibition together with the recovery of RTT‐related neuronal defects. Our data indicate defects of primary cilium as a novel pathogenic mechanism that by contributing to the clinical features of RTT might impact on proper cerebellum/brain development and functioning, thus providing a novel therapeutic target. John Wiley and Sons Inc. 2020-05-08 2020-06-08 /pmc/articles/PMC7278541/ /pubmed/32383329 http://dx.doi.org/10.15252/emmm.201910270 Text en © 2020 The Authors. Published under the terms of the CC BY 4.0 license This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
spellingShingle Articles
Frasca, Angelisa
Spiombi, Eleonora
Palmieri, Michela
Albizzati, Elena
Valente, Maria Maddalena
Bergo, Anna
Leva, Barbara
Kilstrup‐Nielsen, Charlotte
Bianchi, Federico
Di Carlo, Valerio
Di Cunto, Ferdinando
Landsberger, Nicoletta
MECP2 mutations affect ciliogenesis: a novel perspective for Rett syndrome and related disorders
title MECP2 mutations affect ciliogenesis: a novel perspective for Rett syndrome and related disorders
title_full MECP2 mutations affect ciliogenesis: a novel perspective for Rett syndrome and related disorders
title_fullStr MECP2 mutations affect ciliogenesis: a novel perspective for Rett syndrome and related disorders
title_full_unstemmed MECP2 mutations affect ciliogenesis: a novel perspective for Rett syndrome and related disorders
title_short MECP2 mutations affect ciliogenesis: a novel perspective for Rett syndrome and related disorders
title_sort mecp2 mutations affect ciliogenesis: a novel perspective for rett syndrome and related disorders
topic Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7278541/
https://www.ncbi.nlm.nih.gov/pubmed/32383329
http://dx.doi.org/10.15252/emmm.201910270
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