Skeletal muscle myotubes in severe obesity exhibit altered ubiquitin‐proteasome and autophagic/lysosomal proteolytic flux

Objective Whole‐body protein metabolism is dysregulated with obesity. The goal of the study was to determine whether activity and expression of major protein degradation pathways are compromised specifically in human skeletal muscle with obesity. Methods Primary human skeletal muscle (HSkM) cell cul...

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Published in	Obesity (Silver Spring, Md.) Vol. 23; no. 6; pp. 1185 - 1193
Main Authors	Bollinger, Lance M., Powell, Jonathan J. S., Houmard, Joseph A., Witczak, Carol A., Brault, Jeffrey J.
Format	Journal Article
Language	English
Published	United States Blackwell Publishing Ltd 01.06.2015
Subjects	Adult Autophagy Biopsy Cell culture Cell Culture Techniques Enzymes Female Gene Expression Humans Insulin Insulin resistance Insulin-like growth factors Lysosomes - metabolism Metabolism Muscle Fibers, Skeletal - metabolism Muscle, Skeletal - metabolism Musculoskeletal system Obesity Obesity, Morbid - metabolism Proteasome Endopeptidase Complex - metabolism Protein synthesis Proteins Real-Time Polymerase Chain Reaction Studies Ubiquitin - metabolism Young Adult
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ISSN	1930-7381 1930-739X 1930-739X
DOI	10.1002/oby.21081

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Abstract	Objective Whole‐body protein metabolism is dysregulated with obesity. The goal of the study was to determine whether activity and expression of major protein degradation pathways are compromised specifically in human skeletal muscle with obesity. Methods Primary human skeletal muscle (HSkM) cell cultures were utilized since cellular mechanisms can be studied absent of hormones and contractile activity that could independently influence metabolism. HSkM from 10 lean women (BMI ≤ 26.0 kg/m2) and 8 women with severe obesity (BMI ≥ 39.0) were examined basally and when stimulated to atrophy (serum and amino acid starvation). Results HSkM from obese donors had a lower proportion of type I myosin heavy chain and slower flux through the autophagic/lysosomal pathway. During starvation, flux through the ubiquitin‐proteasome system diverged according to obesity status, with a decrease in lean subjects and an increase in HSkM from subjects with obesity. HSkM in obesity also displayed elevated proteasome activity despite no difference in proteasome content. Atrophy‐related gene expression and myotube area were similar in myotubes derived from individuals with and without obesity under basal and starved conditions. Conclusions Our data indicate that muscle cells in lean individuals and in those with severe obesity have innate differences in management of protein degradation, which may explain their metabolic differences.
AbstractList	Objective Whole‐body protein metabolism is dysregulated with obesity. The goal of the study was to determine whether activity and expression of major protein degradation pathways are compromised specifically in human skeletal muscle with obesity. Methods Primary human skeletal muscle (HSkM) cell cultures were utilized since cellular mechanisms can be studied absent of hormones and contractile activity that could independently influence metabolism. HSkM from 10 lean women (BMI ≤ 26.0 kg/m2) and 8 women with severe obesity (BMI ≥ 39.0) were examined basally and when stimulated to atrophy (serum and amino acid starvation). Results HSkM from obese donors had a lower proportion of type I myosin heavy chain and slower flux through the autophagic/lysosomal pathway. During starvation, flux through the ubiquitin‐proteasome system diverged according to obesity status, with a decrease in lean subjects and an increase in HSkM from subjects with obesity. HSkM in obesity also displayed elevated proteasome activity despite no difference in proteasome content. Atrophy‐related gene expression and myotube area were similar in myotubes derived from individuals with and without obesity under basal and starved conditions. Conclusions Our data indicate that muscle cells in lean individuals and in those with severe obesity have innate differences in management of protein degradation, which may explain their metabolic differences. Whole-body protein metabolism is dysregulated with obesity. The goal of the study was to determine whether activity and expression of major protein degradation pathways are compromised specifically in human skeletal muscle with obesity. Primary human skeletal muscle (HSkM) cell cultures were utilized since cellular mechanisms can be studied absent of hormones and contractile activity that could independently influence metabolism. HSkM from 10 lean women (BMI26.0 kg/m2) and 8 women with severe obesity (BMI39.0) were examined basally and when stimulated to atrophy (serum and amino acid starvation). HSkM from obese donors had a lower proportion of type I myosin heavy chain and slower flux through the autophagic/lysosomal pathway. During starvation, flux through the ubiquitin-proteasome system diverged according to obesity status, with a decrease in lean subjects and an increase in HSkM from subjects with obesity. HSkM in obesity also displayed elevated proteasome activity despite no difference in proteasome content. Atrophy-related gene expression and myotube area were similar in myotubes derived from individuals with and without obesity under basal and starved conditions. Our data indicate that muscle cells in lean individuals and in those with severe obesity have innate differences in management of protein degradation, which may explain their metabolic differences. Whole-body protein metabolism is dysregulated with obesity. The goal of the study was to determine whether activity and expression of major protein degradation pathways are compromised specifically in human skeletal muscle with obesity.OBJECTIVEWhole-body protein metabolism is dysregulated with obesity. The goal of the study was to determine whether activity and expression of major protein degradation pathways are compromised specifically in human skeletal muscle with obesity.Primary human skeletal muscle (HSkM) cell cultures were utilized since cellular mechanisms can be studied absent of hormones and contractile activity that could independently influence metabolism. HSkM from 10 lean women (BMI ≤ 26.0 kg/m(2) ) and 8 women with severe obesity (BMI ≥ 39.0) were examined basally and when stimulated to atrophy (serum and amino acid starvation).METHODSPrimary human skeletal muscle (HSkM) cell cultures were utilized since cellular mechanisms can be studied absent of hormones and contractile activity that could independently influence metabolism. HSkM from 10 lean women (BMI ≤ 26.0 kg/m(2) ) and 8 women with severe obesity (BMI ≥ 39.0) were examined basally and when stimulated to atrophy (serum and amino acid starvation).HSkM from obese donors had a lower proportion of type I myosin heavy chain and slower flux through the autophagic/lysosomal pathway. During starvation, flux through the ubiquitin-proteasome system diverged according to obesity status, with a decrease in lean subjects and an increase in HSkM from subjects with obesity. HSkM in obesity also displayed elevated proteasome activity despite no difference in proteasome content. Atrophy-related gene expression and myotube area were similar in myotubes derived from individuals with and without obesity under basal and starved conditions.RESULTSHSkM from obese donors had a lower proportion of type I myosin heavy chain and slower flux through the autophagic/lysosomal pathway. During starvation, flux through the ubiquitin-proteasome system diverged according to obesity status, with a decrease in lean subjects and an increase in HSkM from subjects with obesity. HSkM in obesity also displayed elevated proteasome activity despite no difference in proteasome content. Atrophy-related gene expression and myotube area were similar in myotubes derived from individuals with and without obesity under basal and starved conditions.Our data indicate that muscle cells in lean individuals and in those with severe obesity have innate differences in management of protein degradation, which may explain their metabolic differences.CONCLUSIONSOur data indicate that muscle cells in lean individuals and in those with severe obesity have innate differences in management of protein degradation, which may explain their metabolic differences. Whole-body protein metabolism is dysregulated with obesity. The goal of the study was to determine whether activity and expression of major protein degradation pathways are compromised specifically in human skeletal muscle with obesity. Primary human skeletal muscle (HSkM) cell cultures were utilized since cellular mechanisms can be studied absent of hormones and contractile activity that could independently influence metabolism. HSkM from 10 lean women (BMI ≤ 26.0 kg/m(2) ) and 8 women with severe obesity (BMI ≥ 39.0) were examined basally and when stimulated to atrophy (serum and amino acid starvation). HSkM from obese donors had a lower proportion of type I myosin heavy chain and slower flux through the autophagic/lysosomal pathway. During starvation, flux through the ubiquitin-proteasome system diverged according to obesity status, with a decrease in lean subjects and an increase in HSkM from subjects with obesity. HSkM in obesity also displayed elevated proteasome activity despite no difference in proteasome content. Atrophy-related gene expression and myotube area were similar in myotubes derived from individuals with and without obesity under basal and starved conditions. Our data indicate that muscle cells in lean individuals and in those with severe obesity have innate differences in management of protein degradation, which may explain their metabolic differences.
Author	Brault, Jeffrey J. Powell, Jonathan J. S. Houmard, Joseph A. Witczak, Carol A. Bollinger, Lance M.
Author_xml	– sequence: 1 givenname: Lance M. surname: Bollinger fullname: Bollinger, Lance M. organization: East Carolina University – sequence: 2 givenname: Jonathan J. S. surname: Powell fullname: Powell, Jonathan J. S. organization: East Carolina University – sequence: 3 givenname: Joseph A. surname: Houmard fullname: Houmard, Joseph A. organization: East Carolina University – sequence: 4 givenname: Carol A. surname: Witczak fullname: Witczak, Carol A. organization: East Carolina University – sequence: 5 givenname: Jeffrey J. surname: Brault fullname: Brault, Jeffrey J. organization: East Carolina University
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Copyright	2015 The Obesity Society 2015 The Obesity Society. Copyright Blackwell Publishing Ltd. Jun 2015
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Notes	The authors declared no conflict of interest. Current affiliation of LMB is the Department of Kinesiology and Health Promotion, University of Kentucky, Lexington, Kentucky, USA. Funding provided by start‐up funds from East Carolina University to JJB and CAW, NIH R00‐AR05629 to CAW, NIH R01‐DK56112 to JAH, and a predoctoral ACSM Foundation award to LMB. Disclosure Funding agencies SourceType-Scholarly Journals-1 ObjectType-Feature-1 content type line 14 ObjectType-Article-2 content type line 23
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Snippet	Objective Whole‐body protein metabolism is dysregulated with obesity. The goal of the study was to determine whether activity and expression of major protein... Whole-body protein metabolism is dysregulated with obesity. The goal of the study was to determine whether activity and expression of major protein degradation...
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SubjectTerms	Adult Autophagy Biopsy Cell culture Cell Culture Techniques Enzymes Female Gene Expression Humans Insulin Insulin resistance Insulin-like growth factors Lysosomes - metabolism Metabolism Muscle Fibers, Skeletal - metabolism Muscle, Skeletal - metabolism Musculoskeletal system Obesity Obesity, Morbid - metabolism Proteasome Endopeptidase Complex - metabolism Protein synthesis Proteins Real-Time Polymerase Chain Reaction Studies Ubiquitin - metabolism Young Adult
Title	Skeletal muscle myotubes in severe obesity exhibit altered ubiquitin‐proteasome and autophagic/lysosomal proteolytic flux
URI	https://onlinelibrary.wiley.com/doi/abs/10.1002%2Foby.21081 https://www.ncbi.nlm.nih.gov/pubmed/26010327 https://www.proquest.com/docview/1687392219 https://www.proquest.com/docview/1683759765
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