The membrane periodic skeleton is an actomyosin network that regulates axonal diameter and conduction

Neurons have a membrane periodic skeleton (MPS) composed of actin rings interconnected by spectrin. Here, combining chemical and genetic gain- and loss-of-function assays, we show that in rat hippocampal neurons the MPS is an actomyosin network that controls axonal expansion and contraction. Using s...

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Detalles Bibliográficos
Autores principales: Costa, Ana Rita, Sousa, Sara C, Pinto-Costa, Rita, Mateus, José C, Lopes, Cátia DF, Costa, Ana Catarina, Rosa, David, Machado, Diana, Pajuelo, Luis, Wang, Xuewei, Zhou, Feng-quan, Pereira, António J, Sampaio, Paula, Rubinstein, Boris Y, Mendes Pinto, Inês, Lampe, Marko, Aguiar, Paulo, Sousa, Monica M
Formato: Online Artículo Texto
Lenguaje:English
Publicado: eLife Sciences Publications, Ltd 2020
Materias:
Cell Biology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7105375/
https://www.ncbi.nlm.nih.gov/pubmed/32195665
http://dx.doi.org/10.7554/eLife.55471
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author Costa, Ana Rita
Sousa, Sara C
Pinto-Costa, Rita
Mateus, José C
Lopes, Cátia DF
Costa, Ana Catarina
Rosa, David
Machado, Diana
Pajuelo, Luis
Wang, Xuewei
Zhou, Feng-quan
Pereira, António J
Sampaio, Paula
Rubinstein, Boris Y
Mendes Pinto, Inês
Lampe, Marko
Aguiar, Paulo
Sousa, Monica M
author_facet Costa, Ana Rita
Sousa, Sara C
Pinto-Costa, Rita
Mateus, José C
Lopes, Cátia DF
Costa, Ana Catarina
Rosa, David
Machado, Diana
Pajuelo, Luis
Wang, Xuewei
Zhou, Feng-quan
Pereira, António J
Sampaio, Paula
Rubinstein, Boris Y
Mendes Pinto, Inês
Lampe, Marko
Aguiar, Paulo
Sousa, Monica M
author_sort Costa, Ana Rita
collection PubMed
description Neurons have a membrane periodic skeleton (MPS) composed of actin rings interconnected by spectrin. Here, combining chemical and genetic gain- and loss-of-function assays, we show that in rat hippocampal neurons the MPS is an actomyosin network that controls axonal expansion and contraction. Using super-resolution microscopy, we analyzed the localization of axonal non-muscle myosin II (NMII). We show that active NMII light chains are colocalized with actin rings and organized in a circular periodic manner throughout the axon shaft. In contrast, NMII heavy chains are mostly positioned along the longitudinal axonal axis, being able to crosslink adjacent rings. NMII filaments can play contractile or scaffolding roles determined by their position relative to actin rings and activation state. We also show that MPS destabilization through NMII inactivation affects axonal electrophysiology, increasing action potential conduction velocity. In summary, our findings open new perspectives on axon diameter regulation, with important implications in neuronal biology.
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spelling pubmed-71053752020-04-01 The membrane periodic skeleton is an actomyosin network that regulates axonal diameter and conduction Costa, Ana Rita Sousa, Sara C Pinto-Costa, Rita Mateus, José C Lopes, Cátia DF Costa, Ana Catarina Rosa, David Machado, Diana Pajuelo, Luis Wang, Xuewei Zhou, Feng-quan Pereira, António J Sampaio, Paula Rubinstein, Boris Y Mendes Pinto, Inês Lampe, Marko Aguiar, Paulo Sousa, Monica M eLife Cell Biology Neurons have a membrane periodic skeleton (MPS) composed of actin rings interconnected by spectrin. Here, combining chemical and genetic gain- and loss-of-function assays, we show that in rat hippocampal neurons the MPS is an actomyosin network that controls axonal expansion and contraction. Using super-resolution microscopy, we analyzed the localization of axonal non-muscle myosin II (NMII). We show that active NMII light chains are colocalized with actin rings and organized in a circular periodic manner throughout the axon shaft. In contrast, NMII heavy chains are mostly positioned along the longitudinal axonal axis, being able to crosslink adjacent rings. NMII filaments can play contractile or scaffolding roles determined by their position relative to actin rings and activation state. We also show that MPS destabilization through NMII inactivation affects axonal electrophysiology, increasing action potential conduction velocity. In summary, our findings open new perspectives on axon diameter regulation, with important implications in neuronal biology. eLife Sciences Publications, Ltd 2020-03-20 /pmc/articles/PMC7105375/ /pubmed/32195665 http://dx.doi.org/10.7554/eLife.55471 Text en © 2020, Costa et al http://creativecommons.org/licenses/by/4.0/ http://creativecommons.org/licenses/by/4.0/This article is distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use and redistribution provided that the original author and source are credited.
spellingShingle Cell Biology
Costa, Ana Rita
Sousa, Sara C
Pinto-Costa, Rita
Mateus, José C
Lopes, Cátia DF
Costa, Ana Catarina
Rosa, David
Machado, Diana
Pajuelo, Luis
Wang, Xuewei
Zhou, Feng-quan
Pereira, António J
Sampaio, Paula
Rubinstein, Boris Y
Mendes Pinto, Inês
Lampe, Marko
Aguiar, Paulo
Sousa, Monica M
The membrane periodic skeleton is an actomyosin network that regulates axonal diameter and conduction
title The membrane periodic skeleton is an actomyosin network that regulates axonal diameter and conduction
title_full The membrane periodic skeleton is an actomyosin network that regulates axonal diameter and conduction
title_fullStr The membrane periodic skeleton is an actomyosin network that regulates axonal diameter and conduction
title_full_unstemmed The membrane periodic skeleton is an actomyosin network that regulates axonal diameter and conduction
title_short The membrane periodic skeleton is an actomyosin network that regulates axonal diameter and conduction
title_sort membrane periodic skeleton is an actomyosin network that regulates axonal diameter and conduction
topic Cell Biology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7105375/
https://www.ncbi.nlm.nih.gov/pubmed/32195665
http://dx.doi.org/10.7554/eLife.55471
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