The Effect of SERCA1b Silencing on the Differentiation and Calcium Homeostasis of C2C12 Skeletal Muscle Cells

The sarcoplasmic/endoplasmic reticulum Ca(2+)ATPases (SERCAs) are the main Ca(2+) pumps which decrease the intracellular Ca(2+ )level by reaccumulating Ca(2+) into the sarcoplasmic reticulum. The neonatal SERCA1b is the major Ca(2+) pump in myotubes and young muscle fibers. To understand its role du...

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Autores principales: Tóth, Adrienn, Fodor, János, Vincze, János, Oláh, Tamás, Juhász, Tamás, Zákány, Róza, Csernoch, László, Zádor, Ernő
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2015
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4404259/
https://www.ncbi.nlm.nih.gov/pubmed/25893964
http://dx.doi.org/10.1371/journal.pone.0123583
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author Tóth, Adrienn
Fodor, János
Vincze, János
Oláh, Tamás
Juhász, Tamás
Zákány, Róza
Csernoch, László
Zádor, Ernő
author_facet Tóth, Adrienn
Fodor, János
Vincze, János
Oláh, Tamás
Juhász, Tamás
Zákány, Róza
Csernoch, László
Zádor, Ernő
author_sort Tóth, Adrienn
collection PubMed
description The sarcoplasmic/endoplasmic reticulum Ca(2+)ATPases (SERCAs) are the main Ca(2+) pumps which decrease the intracellular Ca(2+ )level by reaccumulating Ca(2+) into the sarcoplasmic reticulum. The neonatal SERCA1b is the major Ca(2+) pump in myotubes and young muscle fibers. To understand its role during skeletal muscle differentiation its synthesis has been interfered with specific shRNA sequence. Stably transfected clones showing significantly decreased SERCA1b expression (cloneC1) were selected for experiments. The expression of the regulatory proteins of skeletal muscle differentiation was examined either by Western-blot at the protein level for MyoD, STIM1, calsequestrin (CSQ), and calcineurin (CaN) or by RT-PCR for myostatin and MCIP1.4. Quantitative analysis revealed significant alterations in CSQ, STIM1, and CaN expression in cloneC1 as compared to control cells. To examine the functional consequences of the decreased expression of SERCA1b, repeated Ca(2+)-transients were evoked by applications of 120 mM KCl. The significantly higher [Ca(2+)]i measured at the 20(th) and 40(th) seconds after the beginning of KCl application (112±3 and 110±3 nM vs. 150±7 and 135±5 nM, in control and in cloneC1 cells, respectively) indicated a decreased Ca(2+)-uptake capability which was quantified by extracting the maximal pump rate (454±41 μM/s vs. 144±24 μM/s, in control and in cloneC1 cells). Furthermore, the rate of calcium release from the SR (610±60 vs. 377±64 μM/s) and the amount of calcium released (843±75 μM vs. 576±80 μM) were also significantly suppressed. These changes were also accompanied by a reduced activity of CaN in cells with decreased SERCA1b. In parallel, cloneC1 cells showed inhibited cell proliferation and decreased myotube nuclear numbers. Moreover, while cyclosporineA treatment suppressed the proliferation of parental cultures it had no effect on cloneC1 cells. SERCA1b is thus considered to play an essential role in the regulation of [Ca(2+)]i and its ab ovo gene silencing results in decreased skeletal muscle differentiation.
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spelling pubmed-44042592015-05-02 The Effect of SERCA1b Silencing on the Differentiation and Calcium Homeostasis of C2C12 Skeletal Muscle Cells Tóth, Adrienn Fodor, János Vincze, János Oláh, Tamás Juhász, Tamás Zákány, Róza Csernoch, László Zádor, Ernő PLoS One Research Article The sarcoplasmic/endoplasmic reticulum Ca(2+)ATPases (SERCAs) are the main Ca(2+) pumps which decrease the intracellular Ca(2+ )level by reaccumulating Ca(2+) into the sarcoplasmic reticulum. The neonatal SERCA1b is the major Ca(2+) pump in myotubes and young muscle fibers. To understand its role during skeletal muscle differentiation its synthesis has been interfered with specific shRNA sequence. Stably transfected clones showing significantly decreased SERCA1b expression (cloneC1) were selected for experiments. The expression of the regulatory proteins of skeletal muscle differentiation was examined either by Western-blot at the protein level for MyoD, STIM1, calsequestrin (CSQ), and calcineurin (CaN) or by RT-PCR for myostatin and MCIP1.4. Quantitative analysis revealed significant alterations in CSQ, STIM1, and CaN expression in cloneC1 as compared to control cells. To examine the functional consequences of the decreased expression of SERCA1b, repeated Ca(2+)-transients were evoked by applications of 120 mM KCl. The significantly higher [Ca(2+)]i measured at the 20(th) and 40(th) seconds after the beginning of KCl application (112±3 and 110±3 nM vs. 150±7 and 135±5 nM, in control and in cloneC1 cells, respectively) indicated a decreased Ca(2+)-uptake capability which was quantified by extracting the maximal pump rate (454±41 μM/s vs. 144±24 μM/s, in control and in cloneC1 cells). Furthermore, the rate of calcium release from the SR (610±60 vs. 377±64 μM/s) and the amount of calcium released (843±75 μM vs. 576±80 μM) were also significantly suppressed. These changes were also accompanied by a reduced activity of CaN in cells with decreased SERCA1b. In parallel, cloneC1 cells showed inhibited cell proliferation and decreased myotube nuclear numbers. Moreover, while cyclosporineA treatment suppressed the proliferation of parental cultures it had no effect on cloneC1 cells. SERCA1b is thus considered to play an essential role in the regulation of [Ca(2+)]i and its ab ovo gene silencing results in decreased skeletal muscle differentiation. Public Library of Science 2015-04-20 /pmc/articles/PMC4404259/ /pubmed/25893964 http://dx.doi.org/10.1371/journal.pone.0123583 Text en © 2015 Tóth et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Tóth, Adrienn
Fodor, János
Vincze, János
Oláh, Tamás
Juhász, Tamás
Zákány, Róza
Csernoch, László
Zádor, Ernő
The Effect of SERCA1b Silencing on the Differentiation and Calcium Homeostasis of C2C12 Skeletal Muscle Cells
title The Effect of SERCA1b Silencing on the Differentiation and Calcium Homeostasis of C2C12 Skeletal Muscle Cells
title_full The Effect of SERCA1b Silencing on the Differentiation and Calcium Homeostasis of C2C12 Skeletal Muscle Cells
title_fullStr The Effect of SERCA1b Silencing on the Differentiation and Calcium Homeostasis of C2C12 Skeletal Muscle Cells
title_full_unstemmed The Effect of SERCA1b Silencing on the Differentiation and Calcium Homeostasis of C2C12 Skeletal Muscle Cells
title_short The Effect of SERCA1b Silencing on the Differentiation and Calcium Homeostasis of C2C12 Skeletal Muscle Cells
title_sort effect of serca1b silencing on the differentiation and calcium homeostasis of c2c12 skeletal muscle cells
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4404259/
https://www.ncbi.nlm.nih.gov/pubmed/25893964
http://dx.doi.org/10.1371/journal.pone.0123583
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