Unique Preservation of Neural Cells in Hutchinson- Gilford Progeria Syndrome Is Due to the Expression of the Neural-Specific miR-9 MicroRNA

Unique Preservation of Neural Cells in Hutchinson- Gilford Progeria Syndrome Is Due to the Expression of the Neural-Specific miR-9 MicroRNA

One puzzling observation in patients affected with Hutchinson-Gilford progeria syndrome (HGPS), who overall exhibit systemic and dramatic premature aging, is the absence of any conspicuous cognitive impairment. Recent studies based on induced pluripotent stem cells derived from HGPS patient cells h...

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Main Authors: Xavier Nissan, Sophie Blondel, Claire Navarro, Yves Maury, Cécile Denis, Mathilde Girard, Cécile Martinat, Annachiara De Sandre-Giovannoli, Nicolas Levy, Marc Peschanski
Format: Article
Language:English
Published: Elsevier 2012-07-01
Series:Cell Reports
Online Access:http://www.sciencedirect.com/science/article/pii/S2211124712001404
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spelling doaj-1b9e6176a0474061ba1d2593dd63bb262020-11-25T02:13:27ZengElsevierCell Reports2211-12472012-07-01211910.1016/j.celrep.2012.05.015Unique Preservation of Neural Cells in Hutchinson- Gilford Progeria Syndrome Is Due to the Expression of the Neural-Specific miR-9 MicroRNAXavier Nissan0Sophie Blondel1Claire Navarro2Yves Maury3Cécile Denis4Mathilde Girard5Cécile Martinat6Annachiara De Sandre-Giovannoli7Nicolas Levy8Marc Peschanski9CECS, I-STEM, AFM, Institute for Stem Cell Therapy and Exploration of Monogenic Diseases, 5 rue Henri Desbruères, 91030 Evry cedex, FranceINSERM U-861, I-STEM, AFM, Institute for Stem Cell Therapy and Exploration of Monogenic Diseases, 5 rue Henri Desbruères, 91030 Evry cedex, FranceAMU-INSERM UMR_S 910 Génétique médicale et génomique fonctionnelle, Faculté de Médecine la Timone, 27 Boulevard Jean Moulin, 13385 Marseille, FranceCECS, I-STEM, AFM, Institute for Stem Cell Therapy and Exploration of Monogenic Diseases, 5 rue Henri Desbruères, 91030 Evry cedex, FranceCECS, I-STEM, AFM, Institute for Stem Cell Therapy and Exploration of Monogenic Diseases, 5 rue Henri Desbruères, 91030 Evry cedex, FranceCECS, I-STEM, AFM, Institute for Stem Cell Therapy and Exploration of Monogenic Diseases, 5 rue Henri Desbruères, 91030 Evry cedex, FranceINSERM U-861, I-STEM, AFM, Institute for Stem Cell Therapy and Exploration of Monogenic Diseases, 5 rue Henri Desbruères, 91030 Evry cedex, FranceAMU-INSERM UMR_S 910 Génétique médicale et génomique fonctionnelle, Faculté de Médecine la Timone, 27 Boulevard Jean Moulin, 13385 Marseille, FranceAMU-INSERM UMR_S 910 Génétique médicale et génomique fonctionnelle, Faculté de Médecine la Timone, 27 Boulevard Jean Moulin, 13385 Marseille, FranceCECS, I-STEM, AFM, Institute for Stem Cell Therapy and Exploration of Monogenic Diseases, 5 rue Henri Desbruères, 91030 Evry cedex, France One puzzling observation in patients affected with Hutchinson-Gilford progeria syndrome (HGPS), who overall exhibit systemic and dramatic premature aging, is the absence of any conspicuous cognitive impairment. Recent studies based on induced pluripotent stem cells derived from HGPS patient cells have revealed a lack of expression in neural derivatives of lamin A, a major isoform of LMNA that is initially produced as a precursor called prelamin A. In HGPS, defective maturation of a mutated prelamin A induces the accumulation of toxic progerin in patient cells. Here, we show that a microRNA, miR-9, negatively controls lamin A and progerin expression in neural cells. This may bear major functional correlates, as alleviation of nuclear blebbing is observed in nonneural cells after miR-9 overexpression. Our results support the hypothesis, recently proposed from analyses in mice, that protection of neural cells from progerin accumulation in HGPS is due to the physiologically restricted expression of miR-9 to that cell lineage. http://www.sciencedirect.com/science/article/pii/S2211124712001404
collection DOAJ
language English
format Article
sources DOAJ
author Xavier Nissan
Sophie Blondel
Claire Navarro
Yves Maury
Cécile Denis
Mathilde Girard
Cécile Martinat
Annachiara De Sandre-Giovannoli
Nicolas Levy
Marc Peschanski
spellingShingle Xavier Nissan
Sophie Blondel
Claire Navarro
Yves Maury
Cécile Denis
Mathilde Girard
Cécile Martinat
Annachiara De Sandre-Giovannoli
Nicolas Levy
Marc Peschanski
Unique Preservation of Neural Cells in Hutchinson- Gilford Progeria Syndrome Is Due to the Expression of the Neural-Specific miR-9 MicroRNA
Cell Reports
author_facet Xavier Nissan
Sophie Blondel
Claire Navarro
Yves Maury
Cécile Denis
Mathilde Girard
Cécile Martinat
Annachiara De Sandre-Giovannoli
Nicolas Levy
Marc Peschanski
author_sort Xavier Nissan
title Unique Preservation of Neural Cells in Hutchinson- Gilford Progeria Syndrome Is Due to the Expression of the Neural-Specific miR-9 MicroRNA
title_short Unique Preservation of Neural Cells in Hutchinson- Gilford Progeria Syndrome Is Due to the Expression of the Neural-Specific miR-9 MicroRNA
title_full Unique Preservation of Neural Cells in Hutchinson- Gilford Progeria Syndrome Is Due to the Expression of the Neural-Specific miR-9 MicroRNA
title_fullStr Unique Preservation of Neural Cells in Hutchinson- Gilford Progeria Syndrome Is Due to the Expression of the Neural-Specific miR-9 MicroRNA
title_full_unstemmed Unique Preservation of Neural Cells in Hutchinson- Gilford Progeria Syndrome Is Due to the Expression of the Neural-Specific miR-9 MicroRNA
title_sort unique preservation of neural cells in hutchinson- gilford progeria syndrome is due to the expression of the neural-specific mir-9 microrna
publisher Elsevier
series Cell Reports
issn 2211-1247
publishDate 2012-07-01
description One puzzling observation in patients affected with Hutchinson-Gilford progeria syndrome (HGPS), who overall exhibit systemic and dramatic premature aging, is the absence of any conspicuous cognitive impairment. Recent studies based on induced pluripotent stem cells derived from HGPS patient cells have revealed a lack of expression in neural derivatives of lamin A, a major isoform of LMNA that is initially produced as a precursor called prelamin A. In HGPS, defective maturation of a mutated prelamin A induces the accumulation of toxic progerin in patient cells. Here, we show that a microRNA, miR-9, negatively controls lamin A and progerin expression in neural cells. This may bear major functional correlates, as alleviation of nuclear blebbing is observed in nonneural cells after miR-9 overexpression. Our results support the hypothesis, recently proposed from analyses in mice, that protection of neural cells from progerin accumulation in HGPS is due to the physiologically restricted expression of miR-9 to that cell lineage.
url http://www.sciencedirect.com/science/article/pii/S2211124712001404
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