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Pannexin 1 channels in skeletal muscles
Normal myotubes and adult innervated skeletal myofibers express the glycoprotein pannexin1 (Panx1). Six of them form a “gap junction hemichannel-like” structure that connects the cytoplasm with the extracellular space; here they will be called Panx1 channels. These are poorly selective channels perm...
Autores principales: | , , , , |
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Formato: | Online Artículo Texto |
Lenguaje: | English |
Publicado: |
Frontiers Media S.A.
2014
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Materias: | |
Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3990038/ https://www.ncbi.nlm.nih.gov/pubmed/24782784 http://dx.doi.org/10.3389/fphys.2014.00139 |
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author | Cea, Luis A. Riquelme, Manuel A. Vargas, Anibal A. Urrutia, Carolina Sáez, Juan C. |
author_facet | Cea, Luis A. Riquelme, Manuel A. Vargas, Anibal A. Urrutia, Carolina Sáez, Juan C. |
author_sort | Cea, Luis A. |
collection | PubMed |
description | Normal myotubes and adult innervated skeletal myofibers express the glycoprotein pannexin1 (Panx1). Six of them form a “gap junction hemichannel-like” structure that connects the cytoplasm with the extracellular space; here they will be called Panx1 channels. These are poorly selective channels permeable to ions, small metabolic substrate, and signaling molecules. So far little is known about the role of Panx1 channels in muscles but skeletal muscles of Panx1(−/−) mice do not show an evident phenotype. Innervated adult fast and slow skeletal myofibers show Panx1 reactivity in close proximity to dihydropyridine receptors in the sarcolemma of T-tubules. These Panx1 channels are activated by electrical stimulation and extracellular ATP. Panx1 channels play a relevant role in potentiation of muscle contraction because they allow release of ATP and uptake of glucose, two molecules required for this response. In support of this notion, the absence of Panx1 abrogates the potentiation of muscle contraction elicited by repetitive electrical stimulation, which is reversed by exogenously applied ATP. Phosphorylation of Panx1 Thr and Ser residues might be involved in Panx1 channel activation since it is enhanced during potentiation of muscle contraction. Under denervation, Panx1 levels are upregulated and this partially explains the reduction in electrochemical gradient, however its absence does not prevent denervation-induced atrophy but prevents the higher oxidative state. Panx1 also forms functional channels at the cell surface of myotubes and their functional state has been associated with intracellular Ca(2+) signals and regulation of myotube plasticity evoked by electrical stimulation. We proposed that Panx1 channels participate as ATP channels and help to keep a normal oxidative state in skeletal muscles. |
format | Online Article Text |
id | pubmed-3990038 |
institution | National Center for Biotechnology Information |
language | English |
publishDate | 2014 |
publisher | Frontiers Media S.A. |
record_format | MEDLINE/PubMed |
spelling | pubmed-39900382014-04-29 Pannexin 1 channels in skeletal muscles Cea, Luis A. Riquelme, Manuel A. Vargas, Anibal A. Urrutia, Carolina Sáez, Juan C. Front Physiol Physiology Normal myotubes and adult innervated skeletal myofibers express the glycoprotein pannexin1 (Panx1). Six of them form a “gap junction hemichannel-like” structure that connects the cytoplasm with the extracellular space; here they will be called Panx1 channels. These are poorly selective channels permeable to ions, small metabolic substrate, and signaling molecules. So far little is known about the role of Panx1 channels in muscles but skeletal muscles of Panx1(−/−) mice do not show an evident phenotype. Innervated adult fast and slow skeletal myofibers show Panx1 reactivity in close proximity to dihydropyridine receptors in the sarcolemma of T-tubules. These Panx1 channels are activated by electrical stimulation and extracellular ATP. Panx1 channels play a relevant role in potentiation of muscle contraction because they allow release of ATP and uptake of glucose, two molecules required for this response. In support of this notion, the absence of Panx1 abrogates the potentiation of muscle contraction elicited by repetitive electrical stimulation, which is reversed by exogenously applied ATP. Phosphorylation of Panx1 Thr and Ser residues might be involved in Panx1 channel activation since it is enhanced during potentiation of muscle contraction. Under denervation, Panx1 levels are upregulated and this partially explains the reduction in electrochemical gradient, however its absence does not prevent denervation-induced atrophy but prevents the higher oxidative state. Panx1 also forms functional channels at the cell surface of myotubes and their functional state has been associated with intracellular Ca(2+) signals and regulation of myotube plasticity evoked by electrical stimulation. We proposed that Panx1 channels participate as ATP channels and help to keep a normal oxidative state in skeletal muscles. Frontiers Media S.A. 2014-04-11 /pmc/articles/PMC3990038/ /pubmed/24782784 http://dx.doi.org/10.3389/fphys.2014.00139 Text en Copyright © 2014 Cea, Riquelme, Vargas, Urrutia and Sáez. http://creativecommons.org/licenses/by/3.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) or licensor are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms. |
spellingShingle | Physiology Cea, Luis A. Riquelme, Manuel A. Vargas, Anibal A. Urrutia, Carolina Sáez, Juan C. Pannexin 1 channels in skeletal muscles |
title | Pannexin 1 channels in skeletal muscles |
title_full | Pannexin 1 channels in skeletal muscles |
title_fullStr | Pannexin 1 channels in skeletal muscles |
title_full_unstemmed | Pannexin 1 channels in skeletal muscles |
title_short | Pannexin 1 channels in skeletal muscles |
title_sort | pannexin 1 channels in skeletal muscles |
topic | Physiology |
url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3990038/ https://www.ncbi.nlm.nih.gov/pubmed/24782784 http://dx.doi.org/10.3389/fphys.2014.00139 |
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