Loss of adult skeletal muscle stem cells drives age-related neuromuscular junction degeneration

Loss of adult skeletal muscle stem cells drives age-related neuromuscular junction degeneration

Neuromuscular junction degeneration is a prominent aspect of sarcopenia, the age-associated loss of skeletal muscle integrity. Previously, we showed that muscle stem cells activate and contribute to mouse neuromuscular junction regeneration in response to denervation (Liu et al., 2015). Here, we exa...

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Main Authors: Wenxuan Liu, Alanna Klose, Sophie Forman, Nicole D Paris, Lan Wei-LaPierre, Mariela Cortés-Lopéz, Aidi Tan, Morgan Flaherty, Pedro Miura, Robert T Dirksen, Joe V Chakkalakal
Format: Article
Language:English
Published: eLife Sciences Publications Ltd 2017-06-01
Series:eLife
Subjects:
satellite cell
sarcopenia
aging
Sprouty
denervation
synapse
Online Access:https://elifesciences.org/articles/26464
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spelling doaj-378451325042469199ba48d1d765b2062021-05-05T13:31:26ZengeLife Sciences Publications LtdeLife2050-084X2017-06-01610.7554/eLife.26464Loss of adult skeletal muscle stem cells drives age-related neuromuscular junction degenerationWenxuan Liu0Alanna Klose1Sophie Forman2Nicole D Paris3https://orcid.org/0000-0003-0654-0983Lan Wei-LaPierre4Mariela Cortés-Lopéz5Aidi Tan6Morgan Flaherty7Pedro Miura8Robert T Dirksen9Joe V Chakkalakal10https://orcid.org/0000-0002-8440-7312Department of Orthopaedics and Rehabilitation, Center for Musculoskeletal Research, University of Rochester Medical Center, Rochester, United States; Department of Biomedical Genetics, University of Rochester Medical Center, Rochester, United StatesDepartment of Orthopaedics and Rehabilitation, Center for Musculoskeletal Research, University of Rochester Medical Center, Rochester, United StatesDepartment of Biology, University of Rochester, Rochester, United StatesDepartment of Orthopaedics and Rehabilitation, Center for Musculoskeletal Research, University of Rochester Medical Center, Rochester, United StatesDepartment of Pharmacology and Physiology, University of Rochester Medical Center, Rochester, United StatesDepartment of Biology, University of Nevada, Reno, United StatesBioinformatics Division and Center for Synthetic and Systems Biology, Tsinghua University, Beijing, China; TNLIST/Department of Automation, Tsinghua University, Beijing, ChinaDepartment of Biomedical Genetics, University of Rochester Medical Center, Rochester, United StatesDepartment of Biology, University of Nevada, Reno, United StatesDepartment of Pharmacology and Physiology, University of Rochester Medical Center, Rochester, United StatesDepartment of Orthopaedics and Rehabilitation, Center for Musculoskeletal Research, University of Rochester Medical Center, Rochester, United States; Stem Cell and Regenerative Medicine Institute, University of Rochester Medical Center, Rochester, United States; The Rochester Aging Research Center, University of Rochester Medical Center, Rochester, United StatesNeuromuscular junction degeneration is a prominent aspect of sarcopenia, the age-associated loss of skeletal muscle integrity. Previously, we showed that muscle stem cells activate and contribute to mouse neuromuscular junction regeneration in response to denervation (Liu et al., 2015). Here, we examined gene expression profiles and neuromuscular junction integrity in aged mouse muscles, and unexpectedly found limited denervation despite a high level of degenerated neuromuscular junctions. Instead, degenerated neuromuscular junctions were associated with reduced contribution from muscle stem cells. Indeed, muscle stem cell depletion was sufficient to induce neuromuscular junction degeneration at a younger age. Conversely, prevention of muscle stem cell and derived myonuclei loss was associated with attenuation of age-related neuromuscular junction degeneration, muscle atrophy, and the promotion of aged muscle force generation. Our observations demonstrate that deficiencies in muscle stem cell fate and post-synaptic myogenesis provide a cellular basis for age-related neuromuscular junction degeneration and associated skeletal muscle decline.https://elifesciences.org/articles/26464satellite cellsarcopeniaagingSproutydenervationsynapse
collection DOAJ
language English
format Article
sources DOAJ
author Wenxuan Liu
Alanna Klose
Sophie Forman
Nicole D Paris
Lan Wei-LaPierre
Mariela Cortés-Lopéz
Aidi Tan
Morgan Flaherty
Pedro Miura
Robert T Dirksen
Joe V Chakkalakal
spellingShingle Wenxuan Liu
Alanna Klose
Sophie Forman
Nicole D Paris
Lan Wei-LaPierre
Mariela Cortés-Lopéz
Aidi Tan
Morgan Flaherty
Pedro Miura
Robert T Dirksen
Joe V Chakkalakal
Loss of adult skeletal muscle stem cells drives age-related neuromuscular junction degeneration
eLife
satellite cell
sarcopenia
aging
Sprouty
denervation
synapse
author_facet Wenxuan Liu
Alanna Klose
Sophie Forman
Nicole D Paris
Lan Wei-LaPierre
Mariela Cortés-Lopéz
Aidi Tan
Morgan Flaherty
Pedro Miura
Robert T Dirksen
Joe V Chakkalakal
author_sort Wenxuan Liu
title Loss of adult skeletal muscle stem cells drives age-related neuromuscular junction degeneration
title_short Loss of adult skeletal muscle stem cells drives age-related neuromuscular junction degeneration
title_full Loss of adult skeletal muscle stem cells drives age-related neuromuscular junction degeneration
title_fullStr Loss of adult skeletal muscle stem cells drives age-related neuromuscular junction degeneration
title_full_unstemmed Loss of adult skeletal muscle stem cells drives age-related neuromuscular junction degeneration
title_sort loss of adult skeletal muscle stem cells drives age-related neuromuscular junction degeneration
publisher eLife Sciences Publications Ltd
series eLife
issn 2050-084X
publishDate 2017-06-01
description Neuromuscular junction degeneration is a prominent aspect of sarcopenia, the age-associated loss of skeletal muscle integrity. Previously, we showed that muscle stem cells activate and contribute to mouse neuromuscular junction regeneration in response to denervation (Liu et al., 2015). Here, we examined gene expression profiles and neuromuscular junction integrity in aged mouse muscles, and unexpectedly found limited denervation despite a high level of degenerated neuromuscular junctions. Instead, degenerated neuromuscular junctions were associated with reduced contribution from muscle stem cells. Indeed, muscle stem cell depletion was sufficient to induce neuromuscular junction degeneration at a younger age. Conversely, prevention of muscle stem cell and derived myonuclei loss was associated with attenuation of age-related neuromuscular junction degeneration, muscle atrophy, and the promotion of aged muscle force generation. Our observations demonstrate that deficiencies in muscle stem cell fate and post-synaptic myogenesis provide a cellular basis for age-related neuromuscular junction degeneration and associated skeletal muscle decline.
topic satellite cell
sarcopenia
aging
Sprouty
denervation
synapse
url https://elifesciences.org/articles/26464
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