Changes in Cx43 and Na(V)1.5 Expression Precede the Occurrence of Substantial Fibrosis in Calcineurin-Induced Murine Cardiac Hypertrophy

In mice, the calcium-dependent phosphatase calcineurin A (CnA) induces a transcriptional pathway leading to pathological cardiac hypertrophy. Interestingly, induction of CnA has been frequently noticed in human hypertrophic and failing hearts. Independently, the arrhythmia vulnerability of such hear...

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Autores principales: Fontes, Magda S. C., Raaijmakers, Antonia J. A., van Doorn, Tessa, Kok, Bart, Nieuwenhuis, Sylvia, van der Nagel, Roel, Vos, Marc A., de Boer, Teun P., van Rijen, Harold V. M., Bierhuizen, Marti F. A.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2014
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3909068/
https://www.ncbi.nlm.nih.gov/pubmed/24498049
http://dx.doi.org/10.1371/journal.pone.0087226
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author Fontes, Magda S. C.
Raaijmakers, Antonia J. A.
van Doorn, Tessa
Kok, Bart
Nieuwenhuis, Sylvia
van der Nagel, Roel
Vos, Marc A.
de Boer, Teun P.
van Rijen, Harold V. M.
Bierhuizen, Marti F. A.
author_facet Fontes, Magda S. C.
Raaijmakers, Antonia J. A.
van Doorn, Tessa
Kok, Bart
Nieuwenhuis, Sylvia
van der Nagel, Roel
Vos, Marc A.
de Boer, Teun P.
van Rijen, Harold V. M.
Bierhuizen, Marti F. A.
author_sort Fontes, Magda S. C.
collection PubMed
description In mice, the calcium-dependent phosphatase calcineurin A (CnA) induces a transcriptional pathway leading to pathological cardiac hypertrophy. Interestingly, induction of CnA has been frequently noticed in human hypertrophic and failing hearts. Independently, the arrhythmia vulnerability of such hearts has been regularly associated with remodeling of parameters determining electrical conduction (expression level of connexin43 (Cx43) and Na(V)1.5, connective tissue architecture), for which the precise molecular basis and sequence of events is still unknown. Recently, we observed reduced Cx43 and Na(V)1.5 expression in 4-week old mouse hearts, overexpressing a constitutively active form of CnA (MHC-CnA model), but the order of events is still unknown. Therefore, three key parameters of conduction (Cx43, Na(V)1.5 and connective tissue expression) were characterized in MHC-CnA ventricles versus wild-type (WT) during postnatal development on a weekly basis. At postnatal week 1, CnA overexpression induced cardiac hypertrophy in MHC-CnA. Moreover, protein and RNA levels of both Cx43 and Na(V)1.5 were reduced by at least 50% as compared to WT. Cx43 immunoreactive signal was reduced at week 2 in MHC-CnA. At postnatal week 3, Cx43 was less phosphorylated and RNA level of Cx43 normalized to WT values, although the protein level was still reduced. Additionally, MHC-CnA hearts displayed substantial fibrosis relative to WT, which was accompanied by increased RNA levels for genes previously associated with fibrosis such as Col1a1, Col1a2, Col3a1, Tgfb1, Ctgf, Timp1 and microRNA miR-21. In MHC-CnA, reduction in Cx43 and Na(V)1.5 expression thus coincided with overexpression of CnA and hypertrophy development and preceded significant presence of fibrosis. At postnatal week 4 the alterations in conductional parameters observed in the MHC-CnA model lead to abnormal conduction and arrhythmias, similar to those observed in cardiac remodeling in heart failure patients. The MHC-CnA model, therefore, provides for a unique model to resolve the molecular origin of conductional remodeling in detail.
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spelling pubmed-39090682014-02-04 Changes in Cx43 and Na(V)1.5 Expression Precede the Occurrence of Substantial Fibrosis in Calcineurin-Induced Murine Cardiac Hypertrophy Fontes, Magda S. C. Raaijmakers, Antonia J. A. van Doorn, Tessa Kok, Bart Nieuwenhuis, Sylvia van der Nagel, Roel Vos, Marc A. de Boer, Teun P. van Rijen, Harold V. M. Bierhuizen, Marti F. A. PLoS One Research Article In mice, the calcium-dependent phosphatase calcineurin A (CnA) induces a transcriptional pathway leading to pathological cardiac hypertrophy. Interestingly, induction of CnA has been frequently noticed in human hypertrophic and failing hearts. Independently, the arrhythmia vulnerability of such hearts has been regularly associated with remodeling of parameters determining electrical conduction (expression level of connexin43 (Cx43) and Na(V)1.5, connective tissue architecture), for which the precise molecular basis and sequence of events is still unknown. Recently, we observed reduced Cx43 and Na(V)1.5 expression in 4-week old mouse hearts, overexpressing a constitutively active form of CnA (MHC-CnA model), but the order of events is still unknown. Therefore, three key parameters of conduction (Cx43, Na(V)1.5 and connective tissue expression) were characterized in MHC-CnA ventricles versus wild-type (WT) during postnatal development on a weekly basis. At postnatal week 1, CnA overexpression induced cardiac hypertrophy in MHC-CnA. Moreover, protein and RNA levels of both Cx43 and Na(V)1.5 were reduced by at least 50% as compared to WT. Cx43 immunoreactive signal was reduced at week 2 in MHC-CnA. At postnatal week 3, Cx43 was less phosphorylated and RNA level of Cx43 normalized to WT values, although the protein level was still reduced. Additionally, MHC-CnA hearts displayed substantial fibrosis relative to WT, which was accompanied by increased RNA levels for genes previously associated with fibrosis such as Col1a1, Col1a2, Col3a1, Tgfb1, Ctgf, Timp1 and microRNA miR-21. In MHC-CnA, reduction in Cx43 and Na(V)1.5 expression thus coincided with overexpression of CnA and hypertrophy development and preceded significant presence of fibrosis. At postnatal week 4 the alterations in conductional parameters observed in the MHC-CnA model lead to abnormal conduction and arrhythmias, similar to those observed in cardiac remodeling in heart failure patients. The MHC-CnA model, therefore, provides for a unique model to resolve the molecular origin of conductional remodeling in detail. Public Library of Science 2014-01-31 /pmc/articles/PMC3909068/ /pubmed/24498049 http://dx.doi.org/10.1371/journal.pone.0087226 Text en © 2014 Fontes 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
Fontes, Magda S. C.
Raaijmakers, Antonia J. A.
van Doorn, Tessa
Kok, Bart
Nieuwenhuis, Sylvia
van der Nagel, Roel
Vos, Marc A.
de Boer, Teun P.
van Rijen, Harold V. M.
Bierhuizen, Marti F. A.
Changes in Cx43 and Na(V)1.5 Expression Precede the Occurrence of Substantial Fibrosis in Calcineurin-Induced Murine Cardiac Hypertrophy
title Changes in Cx43 and Na(V)1.5 Expression Precede the Occurrence of Substantial Fibrosis in Calcineurin-Induced Murine Cardiac Hypertrophy
title_full Changes in Cx43 and Na(V)1.5 Expression Precede the Occurrence of Substantial Fibrosis in Calcineurin-Induced Murine Cardiac Hypertrophy
title_fullStr Changes in Cx43 and Na(V)1.5 Expression Precede the Occurrence of Substantial Fibrosis in Calcineurin-Induced Murine Cardiac Hypertrophy
title_full_unstemmed Changes in Cx43 and Na(V)1.5 Expression Precede the Occurrence of Substantial Fibrosis in Calcineurin-Induced Murine Cardiac Hypertrophy
title_short Changes in Cx43 and Na(V)1.5 Expression Precede the Occurrence of Substantial Fibrosis in Calcineurin-Induced Murine Cardiac Hypertrophy
title_sort changes in cx43 and na(v)1.5 expression precede the occurrence of substantial fibrosis in calcineurin-induced murine cardiac hypertrophy
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3909068/
https://www.ncbi.nlm.nih.gov/pubmed/24498049
http://dx.doi.org/10.1371/journal.pone.0087226
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