A transcriptomic approach to search for novel phenotypic regulators in McArdle disease.

A transcriptomic approach to search for novel phenotypic regulators in McArdle disease.

McArdle disease is caused by lack of glycogen phosphorylase (GP) activity in skeletal muscle. Patients experience exercise intolerance, presenting as early fatigue and contractures. In this study, we investigated the effects produced by a lack of GP on several genes and proteins of skeletal muscle i...

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Main Authors: Gisela Nogales-Gadea, Inés Consuegra-García, Juan C Rubio, Joaquin Arenas, Marc Cuadros, Yolanda Camara, Javier Torres-Torronteras, Carmen Fiuza-Luces, Alejandro Lucia, Miguel A Martín, Elena García-Arumí, Antoni L Andreu
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2012-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3276513?pdf=render
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spelling doaj-d02f9b119679451f86af8b382c5ba9202020-11-25T02:32:11ZengPublic Library of Science (PLoS)PLoS ONE1932-62032012-01-0172e3171810.1371/journal.pone.0031718A transcriptomic approach to search for novel phenotypic regulators in McArdle disease.Gisela Nogales-GadeaInés Consuegra-GarcíaJuan C RubioJoaquin ArenasMarc CuadrosYolanda CamaraJavier Torres-TorronterasCarmen Fiuza-LucesAlejandro LuciaMiguel A MartínElena García-ArumíAntoni L AndreuMcArdle disease is caused by lack of glycogen phosphorylase (GP) activity in skeletal muscle. Patients experience exercise intolerance, presenting as early fatigue and contractures. In this study, we investigated the effects produced by a lack of GP on several genes and proteins of skeletal muscle in McArdle patients. Muscle tissue of 35 patients and 7 healthy controls were used to identify abnormalities in the patients' transcriptomic profile using low-density arrays. Gene expression was analyzed for the influence of variables such as sex and clinical severity. Differences in protein expression were studied by immunoblotting and 2D electrophoresis analysis, and protein complexes were examined by two-dimensional, blue native gel electrophoresis (BN-PAGE). A number of genes including those encoding acetyl-coA carboxylase beta, m-cadherin, calpain III, creatine kinase, glycogen synthase (GS), and sarcoplasmic reticulum calcium ATPase 1 (SERCA1), were found to be downregulated in patients. Specifically, compared to controls, GS and SERCA1 proteins were reduced by 50% and 75% respectively; also, unphosphorylated GS and SERCA1 were highly downregulated. On BN-PAGE analysis, GP was present with GS in two muscle protein complexes. Our findings revealed some issues that could be important in understanding the physiological consequences of McArdle disease: (i) SERCA1 downregulation in patients could result in impaired calcium transport in type II (fast-twitch) muscle fibers, leading to early fatigability during exercise tasks involving type II fibers (which mostly use glycolytic metabolism), i.e. isometric exercise, lifting weights or intense dynamic exercise (stair climbing, bicycling, walking at a very brisk pace), (ii) GP and GS were found together in two protein complexes, which suggests a new regulatory mechanism in the activity of these glycogen enzymes.http://europepmc.org/articles/PMC3276513?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Gisela Nogales-Gadea
Inés Consuegra-García
Juan C Rubio
Joaquin Arenas
Marc Cuadros
Yolanda Camara
Javier Torres-Torronteras
Carmen Fiuza-Luces
Alejandro Lucia
Miguel A Martín
Elena García-Arumí
Antoni L Andreu
spellingShingle Gisela Nogales-Gadea
Inés Consuegra-García
Juan C Rubio
Joaquin Arenas
Marc Cuadros
Yolanda Camara
Javier Torres-Torronteras
Carmen Fiuza-Luces
Alejandro Lucia
Miguel A Martín
Elena García-Arumí
Antoni L Andreu
A transcriptomic approach to search for novel phenotypic regulators in McArdle disease.
PLoS ONE
author_facet Gisela Nogales-Gadea
Inés Consuegra-García
Juan C Rubio
Joaquin Arenas
Marc Cuadros
Yolanda Camara
Javier Torres-Torronteras
Carmen Fiuza-Luces
Alejandro Lucia
Miguel A Martín
Elena García-Arumí
Antoni L Andreu
author_sort Gisela Nogales-Gadea
title A transcriptomic approach to search for novel phenotypic regulators in McArdle disease.
title_short A transcriptomic approach to search for novel phenotypic regulators in McArdle disease.
title_full A transcriptomic approach to search for novel phenotypic regulators in McArdle disease.
title_fullStr A transcriptomic approach to search for novel phenotypic regulators in McArdle disease.
title_full_unstemmed A transcriptomic approach to search for novel phenotypic regulators in McArdle disease.
title_sort transcriptomic approach to search for novel phenotypic regulators in mcardle disease.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2012-01-01
description McArdle disease is caused by lack of glycogen phosphorylase (GP) activity in skeletal muscle. Patients experience exercise intolerance, presenting as early fatigue and contractures. In this study, we investigated the effects produced by a lack of GP on several genes and proteins of skeletal muscle in McArdle patients. Muscle tissue of 35 patients and 7 healthy controls were used to identify abnormalities in the patients' transcriptomic profile using low-density arrays. Gene expression was analyzed for the influence of variables such as sex and clinical severity. Differences in protein expression were studied by immunoblotting and 2D electrophoresis analysis, and protein complexes were examined by two-dimensional, blue native gel electrophoresis (BN-PAGE). A number of genes including those encoding acetyl-coA carboxylase beta, m-cadherin, calpain III, creatine kinase, glycogen synthase (GS), and sarcoplasmic reticulum calcium ATPase 1 (SERCA1), were found to be downregulated in patients. Specifically, compared to controls, GS and SERCA1 proteins were reduced by 50% and 75% respectively; also, unphosphorylated GS and SERCA1 were highly downregulated. On BN-PAGE analysis, GP was present with GS in two muscle protein complexes. Our findings revealed some issues that could be important in understanding the physiological consequences of McArdle disease: (i) SERCA1 downregulation in patients could result in impaired calcium transport in type II (fast-twitch) muscle fibers, leading to early fatigability during exercise tasks involving type II fibers (which mostly use glycolytic metabolism), i.e. isometric exercise, lifting weights or intense dynamic exercise (stair climbing, bicycling, walking at a very brisk pace), (ii) GP and GS were found together in two protein complexes, which suggests a new regulatory mechanism in the activity of these glycogen enzymes.
url http://europepmc.org/articles/PMC3276513?pdf=render
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