Literature DB >> 21635888

The isolated muscle fibre as a model of disuse atrophy: characterization using PhAct, a method to quantify f-actin.

William J Duddy1, Tatiana Cohen, Stephanie Duguez, Terence A Partridge.   

Abstract

Research into muscle atrophy and hypertrophy is hampered by limitations of the available experimental models. Interpretation of in vivo experiments is confounded by the complexity of the environment while in vitro models are subject to the marked disparities between cultured myotubes and the mature myofibres of living tissues. Here we develop a method (PhAct) based on ex vivo maintenance of the isolated myofibre as a model of disuse atrophy, using standard microscopy equipment and widely available analysis software, to measure f-actin content per myofibre and per nucleus over two weeks of ex vivo maintenance. We characterize the 35% per week atrophy of the isolated myofibre in terms of early changes in gene expression and investigate the effects on loss of muscle mass of modulatory agents, including Myostatin and Follistatin. By tracing the incorporation of a nucleotide analogue we show that the observed atrophy is not associated with loss or replacement of myonuclei. Such a completely controlled investigation can be conducted with the myofibres of a single muscle. With this novel method we can distinguish those features and mechanisms of atrophy and hypertrophy that are intrinsic to the muscle fibre from those that include activities of other tissues and systemic agents.
Copyright © 2011 Elsevier Inc. All rights reserved.

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Year:  2011        PMID: 21635888      PMCID: PMC3148270          DOI: 10.1016/j.yexcr.2011.05.013

Source DB:  PubMed          Journal:  Exp Cell Res        ISSN: 0014-4827            Impact factor:   3.905


  79 in total

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3.  Patterns of global gene expression in rat skeletal muscle during unloading and low-intensity ambulatory activity.

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4.  Atrophy responses to muscle inactivity. I. Cellular markers of protein deficits.

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5.  Disuse atrophy and exercise rehabilitation in humans profoundly affects the expression of genes associated with the regulation of skeletal muscle mass.

Authors:  Simon W Jones; Roger J Hill; Philip A Krasney; Barbara O'Conner; Nicholas Peirce; Paul L Greenhaff
Journal:  FASEB J       Date:  2004-04-14       Impact factor: 5.191

6.  Urocortin II treatment reduces skeletal muscle mass and function loss during atrophy and increases nonatrophying skeletal muscle mass and function.

Authors:  Richard T Hinkle; Elizabeth Donnelly; David B Cody; Mary Beth Bauer; Robert J Isfort
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7.  Cancer cachexia is regulated by selective targeting of skeletal muscle gene products.

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8.  Multiple types of skeletal muscle atrophy involve a common program of changes in gene expression.

Authors:  Stewart H Lecker; R Thomas Jagoe; Alexander Gilbert; Marcelo Gomes; Vickie Baracos; James Bailey; S Russ Price; William E Mitch; Alfred L Goldberg
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9.  Satellite cell regulation of muscle mass is altered at old age.

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Journal:  J Appl Physiol (1985)       Date:  2004-04-30

10.  Myostatin negatively regulates satellite cell activation and self-renewal.

Authors:  Seumas McCroskery; Mark Thomas; Linda Maxwell; Mridula Sharma; Ravi Kambadur
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  8 in total

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2.  Effect of genetic background on the dystrophic phenotype in mdx mice.

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Journal:  Hum Mol Genet       Date:  2015-11-12       Impact factor: 6.150

3.  TGF-β-driven muscle degeneration and failed regeneration underlie disease onset in a DMD mouse model.

Authors:  Davi Ag Mázala; James S Novak; Marshall W Hogarth; Marie Nearing; Prabhat Adusumalli; Christopher B Tully; Nayab F Habib; Heather Gordish-Dressman; Yi-Wen Chen; Jyoti K Jaiswal; Terence A Partridge
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4.  Muscular dystrophy in the mdx mouse is a severe myopathy compounded by hypotrophy, hypertrophy and hyperplasia.

Authors:  William Duddy; Stephanie Duguez; Helen Johnston; Tatiana V Cohen; Aditi Phadke; Heather Gordish-Dressman; Kanneboyina Nagaraju; Viola Gnocchi; SiewHui Low; Terence Partridge
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5.  Acute Elevated Glucose Promotes Abnormal Action Potential-Induced Ca2+ Transients in Cultured Skeletal Muscle Fibers.

Authors:  Erick O Hernández-Ochoa; Quinton Banks; Martin F Schneider
Journal:  J Diabetes Res       Date:  2017-08-01       Impact factor: 4.011

Review 6.  Skeletal Muscles Do Not Undergo Apoptosis During Either Atrophy or Programmed Cell Death-Revisiting the Myonuclear Domain Hypothesis.

Authors:  Lawrence M Schwartz
Journal:  Front Physiol       Date:  2019-01-25       Impact factor: 4.566

7.  Mitochondrial Permeability Transition Causes Mitochondrial Reactive Oxygen Species- and Caspase 3-Dependent Atrophy of Single Adult Mouse Skeletal Muscle Fibers.

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Journal:  Cells       Date:  2021-09-29       Impact factor: 6.600

8.  miR-411 is up-regulated in FSHD myoblasts and suppresses myogenic factors.

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  8 in total

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