Kir4.1-Dependent Astrocyte-Fast Motor Neuron Interactions Are Required for Peak Strength

Diversified neurons are essential for sensorimotor function, but whether astrocytes become specialized to optimize circuit performance remains unclear. Large fast α-motor neurons (FαMNs) of spinal cord innervate fast-twitch muscles that generate peak strength. We report that ventral horn astrocytes...

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Autores principales: Kelley, Kevin W., Ben Haim, Lucile, Schirmer, Lucas, Tyzack, Giulia E., Tolman, Michaela, Miller, John G., Tsai, Hui-Hsin, Chang, Sandra M., Molofsky, Anna V., Yang, Yongjie, Patani, Rickie, Lakatos, Andras, Ullian, Erik M., Rowitch, David H.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cell Press 2018
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5919779/
https://www.ncbi.nlm.nih.gov/pubmed/29606582
http://dx.doi.org/10.1016/j.neuron.2018.03.010
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author Kelley, Kevin W.
Ben Haim, Lucile
Schirmer, Lucas
Tyzack, Giulia E.
Tolman, Michaela
Miller, John G.
Tsai, Hui-Hsin
Chang, Sandra M.
Molofsky, Anna V.
Yang, Yongjie
Patani, Rickie
Lakatos, Andras
Ullian, Erik M.
Rowitch, David H.
author_facet Kelley, Kevin W.
Ben Haim, Lucile
Schirmer, Lucas
Tyzack, Giulia E.
Tolman, Michaela
Miller, John G.
Tsai, Hui-Hsin
Chang, Sandra M.
Molofsky, Anna V.
Yang, Yongjie
Patani, Rickie
Lakatos, Andras
Ullian, Erik M.
Rowitch, David H.
author_sort Kelley, Kevin W.
collection PubMed
description Diversified neurons are essential for sensorimotor function, but whether astrocytes become specialized to optimize circuit performance remains unclear. Large fast α-motor neurons (FαMNs) of spinal cord innervate fast-twitch muscles that generate peak strength. We report that ventral horn astrocytes express the inward-rectifying K(+) channel Kir4.1 (a.k.a. Kcnj10) around MNs in a VGLUT1-dependent manner. Loss of astrocyte-encoded Kir4.1 selectively altered FαMN size and function and led to reduced peak strength. Overexpression of Kir4.1 in astrocytes was sufficient to increase MN size through activation of the PI3K/mTOR/pS6 pathway. Kir4.1 was downregulated cell autonomously in astrocytes derived from amyotrophic lateral sclerosis (ALS) patients with SOD1 mutation. However, astrocyte Kir4.1 was dispensable for FαMN survival even in the mutant SOD1 background. These findings show that astrocyte Kir4.1 is essential for maintenance of peak strength and suggest that Kir4.1 downregulation might uncouple symptoms of muscle weakness from MN cell death in diseases like ALS.
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spelling pubmed-59197792018-04-27 Kir4.1-Dependent Astrocyte-Fast Motor Neuron Interactions Are Required for Peak Strength Kelley, Kevin W. Ben Haim, Lucile Schirmer, Lucas Tyzack, Giulia E. Tolman, Michaela Miller, John G. Tsai, Hui-Hsin Chang, Sandra M. Molofsky, Anna V. Yang, Yongjie Patani, Rickie Lakatos, Andras Ullian, Erik M. Rowitch, David H. Neuron Article Diversified neurons are essential for sensorimotor function, but whether astrocytes become specialized to optimize circuit performance remains unclear. Large fast α-motor neurons (FαMNs) of spinal cord innervate fast-twitch muscles that generate peak strength. We report that ventral horn astrocytes express the inward-rectifying K(+) channel Kir4.1 (a.k.a. Kcnj10) around MNs in a VGLUT1-dependent manner. Loss of astrocyte-encoded Kir4.1 selectively altered FαMN size and function and led to reduced peak strength. Overexpression of Kir4.1 in astrocytes was sufficient to increase MN size through activation of the PI3K/mTOR/pS6 pathway. Kir4.1 was downregulated cell autonomously in astrocytes derived from amyotrophic lateral sclerosis (ALS) patients with SOD1 mutation. However, astrocyte Kir4.1 was dispensable for FαMN survival even in the mutant SOD1 background. These findings show that astrocyte Kir4.1 is essential for maintenance of peak strength and suggest that Kir4.1 downregulation might uncouple symptoms of muscle weakness from MN cell death in diseases like ALS. Cell Press 2018-04-18 /pmc/articles/PMC5919779/ /pubmed/29606582 http://dx.doi.org/10.1016/j.neuron.2018.03.010 Text en © 2018 The Authors http://creativecommons.org/licenses/by/4.0/ This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Kelley, Kevin W.
Ben Haim, Lucile
Schirmer, Lucas
Tyzack, Giulia E.
Tolman, Michaela
Miller, John G.
Tsai, Hui-Hsin
Chang, Sandra M.
Molofsky, Anna V.
Yang, Yongjie
Patani, Rickie
Lakatos, Andras
Ullian, Erik M.
Rowitch, David H.
Kir4.1-Dependent Astrocyte-Fast Motor Neuron Interactions Are Required for Peak Strength
title Kir4.1-Dependent Astrocyte-Fast Motor Neuron Interactions Are Required for Peak Strength
title_full Kir4.1-Dependent Astrocyte-Fast Motor Neuron Interactions Are Required for Peak Strength
title_fullStr Kir4.1-Dependent Astrocyte-Fast Motor Neuron Interactions Are Required for Peak Strength
title_full_unstemmed Kir4.1-Dependent Astrocyte-Fast Motor Neuron Interactions Are Required for Peak Strength
title_short Kir4.1-Dependent Astrocyte-Fast Motor Neuron Interactions Are Required for Peak Strength
title_sort kir4.1-dependent astrocyte-fast motor neuron interactions are required for peak strength
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5919779/
https://www.ncbi.nlm.nih.gov/pubmed/29606582
http://dx.doi.org/10.1016/j.neuron.2018.03.010
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