Bmcc1s, a Novel Brain-Isoform of Bmcc1, Affects Cell Morphology by Regulating MAP6/STOP Functions

The BCH (BNIP2 and Cdc42GAP Homology) domain-containing protein Bmcc1/Prune2 is highly enriched in the brain and is involved in the regulation of cytoskeleton dynamics and cell survival. However, the molecular mechanisms accounting for these functions are poorly defined. Here, we have identified Bmc...

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Autores principales: Arama, Jessica, Boulay, Anne-Cécile, Bosc, Christophe, Delphin, Christian, Loew, Damarys, Rostaing, Philippe, Amigou, Edwige, Ezan, Pascal, Wingertsmann, Laure, Guillaud, Laurent, Andrieux, Annie, Giaume, Christian, Cohen-Salmon, Martine
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2012
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3327665/
https://www.ncbi.nlm.nih.gov/pubmed/22523599
http://dx.doi.org/10.1371/journal.pone.0035488
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author Arama, Jessica
Boulay, Anne-Cécile
Bosc, Christophe
Delphin, Christian
Loew, Damarys
Rostaing, Philippe
Amigou, Edwige
Ezan, Pascal
Wingertsmann, Laure
Guillaud, Laurent
Andrieux, Annie
Giaume, Christian
Cohen-Salmon, Martine
author_facet Arama, Jessica
Boulay, Anne-Cécile
Bosc, Christophe
Delphin, Christian
Loew, Damarys
Rostaing, Philippe
Amigou, Edwige
Ezan, Pascal
Wingertsmann, Laure
Guillaud, Laurent
Andrieux, Annie
Giaume, Christian
Cohen-Salmon, Martine
author_sort Arama, Jessica
collection PubMed
description The BCH (BNIP2 and Cdc42GAP Homology) domain-containing protein Bmcc1/Prune2 is highly enriched in the brain and is involved in the regulation of cytoskeleton dynamics and cell survival. However, the molecular mechanisms accounting for these functions are poorly defined. Here, we have identified Bmcc1s, a novel isoform of Bmcc1 predominantly expressed in the mouse brain. In primary cultures of astrocytes and neurons, Bmcc1s localized on intermediate filaments and microtubules and interacted directly with MAP6/STOP, a microtubule-binding protein responsible for microtubule cold stability. Bmcc1s overexpression inhibited MAP6-induced microtubule cold stability by displacing MAP6 away from microtubules. It also resulted in the formation of membrane protrusions for which MAP6 was a necessary cofactor of Bmcc1s. This study identifies Bmcc1s as a new MAP6 interacting protein able to modulate MAP6-induced microtubule cold stability. Moreover, it illustrates a novel mechanism by which Bmcc1 regulates cell morphology.
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spelling pubmed-33276652012-04-20 Bmcc1s, a Novel Brain-Isoform of Bmcc1, Affects Cell Morphology by Regulating MAP6/STOP Functions Arama, Jessica Boulay, Anne-Cécile Bosc, Christophe Delphin, Christian Loew, Damarys Rostaing, Philippe Amigou, Edwige Ezan, Pascal Wingertsmann, Laure Guillaud, Laurent Andrieux, Annie Giaume, Christian Cohen-Salmon, Martine PLoS One Research Article The BCH (BNIP2 and Cdc42GAP Homology) domain-containing protein Bmcc1/Prune2 is highly enriched in the brain and is involved in the regulation of cytoskeleton dynamics and cell survival. However, the molecular mechanisms accounting for these functions are poorly defined. Here, we have identified Bmcc1s, a novel isoform of Bmcc1 predominantly expressed in the mouse brain. In primary cultures of astrocytes and neurons, Bmcc1s localized on intermediate filaments and microtubules and interacted directly with MAP6/STOP, a microtubule-binding protein responsible for microtubule cold stability. Bmcc1s overexpression inhibited MAP6-induced microtubule cold stability by displacing MAP6 away from microtubules. It also resulted in the formation of membrane protrusions for which MAP6 was a necessary cofactor of Bmcc1s. This study identifies Bmcc1s as a new MAP6 interacting protein able to modulate MAP6-induced microtubule cold stability. Moreover, it illustrates a novel mechanism by which Bmcc1 regulates cell morphology. Public Library of Science 2012-04-16 /pmc/articles/PMC3327665/ /pubmed/22523599 http://dx.doi.org/10.1371/journal.pone.0035488 Text en Arama et al. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Arama, Jessica
Boulay, Anne-Cécile
Bosc, Christophe
Delphin, Christian
Loew, Damarys
Rostaing, Philippe
Amigou, Edwige
Ezan, Pascal
Wingertsmann, Laure
Guillaud, Laurent
Andrieux, Annie
Giaume, Christian
Cohen-Salmon, Martine
Bmcc1s, a Novel Brain-Isoform of Bmcc1, Affects Cell Morphology by Regulating MAP6/STOP Functions
title Bmcc1s, a Novel Brain-Isoform of Bmcc1, Affects Cell Morphology by Regulating MAP6/STOP Functions
title_full Bmcc1s, a Novel Brain-Isoform of Bmcc1, Affects Cell Morphology by Regulating MAP6/STOP Functions
title_fullStr Bmcc1s, a Novel Brain-Isoform of Bmcc1, Affects Cell Morphology by Regulating MAP6/STOP Functions
title_full_unstemmed Bmcc1s, a Novel Brain-Isoform of Bmcc1, Affects Cell Morphology by Regulating MAP6/STOP Functions
title_short Bmcc1s, a Novel Brain-Isoform of Bmcc1, Affects Cell Morphology by Regulating MAP6/STOP Functions
title_sort bmcc1s, a novel brain-isoform of bmcc1, affects cell morphology by regulating map6/stop functions
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3327665/
https://www.ncbi.nlm.nih.gov/pubmed/22523599
http://dx.doi.org/10.1371/journal.pone.0035488
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