Cardiomyocyte microRNA-150 confers cardiac protection and directly represses proapoptotic small proline–rich protein 1A

MicroRNA-150 (miR-150) is downregulated in patients with multiple cardiovascular diseases and in diverse mouse models of heart failure (HF). miR-150 is significantly associated with HF severity and outcome in humans. We previously reported that miR-150 is activated by β-blocker carvedilol (Carv) and...

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Autores principales: Aonuma, Tatsuya, Moukette, Bruno, Kawaguchi, Satoshi, Barupala, Nipuni P., Sepúlveda, Marisa N., Corr, Christopher, Tang, Yaoliang, Liangpunsakul, Suthat, Payne, R. Mark, Willis, Monte S., Kim, Il-man
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Clinical Investigation 2021
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Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8492334/
https://www.ncbi.nlm.nih.gov/pubmed/34403363
http://dx.doi.org/10.1172/jci.insight.150405
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author Aonuma, Tatsuya
Moukette, Bruno
Kawaguchi, Satoshi
Barupala, Nipuni P.
Sepúlveda, Marisa N.
Corr, Christopher
Tang, Yaoliang
Liangpunsakul, Suthat
Payne, R. Mark
Willis, Monte S.
Kim, Il-man
author_facet Aonuma, Tatsuya
Moukette, Bruno
Kawaguchi, Satoshi
Barupala, Nipuni P.
Sepúlveda, Marisa N.
Corr, Christopher
Tang, Yaoliang
Liangpunsakul, Suthat
Payne, R. Mark
Willis, Monte S.
Kim, Il-man
author_sort Aonuma, Tatsuya
collection PubMed
description MicroRNA-150 (miR-150) is downregulated in patients with multiple cardiovascular diseases and in diverse mouse models of heart failure (HF). miR-150 is significantly associated with HF severity and outcome in humans. We previously reported that miR-150 is activated by β-blocker carvedilol (Carv) and plays a protective role in the heart using a systemic miR-150 KO mouse model. However, mechanisms that regulate cell-specific miR-150 expression and function in HF are unknown. Here, we demonstrate that potentially novel conditional cardiomyocyte–specific (CM-specific) miR-150 KO (miR-150 cKO) in mice worsens maladaptive cardiac remodeling after myocardial infarction (MI). Genome-wide transcriptomic analysis in miR-150 cKO mouse hearts identifies small proline–rich protein 1a (Sprr1a) as a potentially novel target of miR-150. Our studies further reveal that Sprr1a expression is upregulated in CMs isolated from ischemic myocardium and subjected to simulated ischemia/reperfusion, while its expression is downregulated in hearts and CMs by Carv. We also show that left ventricular SPRR1A is upregulated in patients with HF and that Sprr1a knockdown in mice prevents maladaptive post-MI remodeling. Lastly, protective roles of CM miR-150 are, in part, attributed to the direct and functional repression of proapoptotic Sprr1a. Our findings suggest a crucial role for the miR-150/SPRR1A axis in regulating CM function post-MI.
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spelling pubmed-84923342021-10-07 Cardiomyocyte microRNA-150 confers cardiac protection and directly represses proapoptotic small proline–rich protein 1A Aonuma, Tatsuya Moukette, Bruno Kawaguchi, Satoshi Barupala, Nipuni P. Sepúlveda, Marisa N. Corr, Christopher Tang, Yaoliang Liangpunsakul, Suthat Payne, R. Mark Willis, Monte S. Kim, Il-man JCI Insight Research Article MicroRNA-150 (miR-150) is downregulated in patients with multiple cardiovascular diseases and in diverse mouse models of heart failure (HF). miR-150 is significantly associated with HF severity and outcome in humans. We previously reported that miR-150 is activated by β-blocker carvedilol (Carv) and plays a protective role in the heart using a systemic miR-150 KO mouse model. However, mechanisms that regulate cell-specific miR-150 expression and function in HF are unknown. Here, we demonstrate that potentially novel conditional cardiomyocyte–specific (CM-specific) miR-150 KO (miR-150 cKO) in mice worsens maladaptive cardiac remodeling after myocardial infarction (MI). Genome-wide transcriptomic analysis in miR-150 cKO mouse hearts identifies small proline–rich protein 1a (Sprr1a) as a potentially novel target of miR-150. Our studies further reveal that Sprr1a expression is upregulated in CMs isolated from ischemic myocardium and subjected to simulated ischemia/reperfusion, while its expression is downregulated in hearts and CMs by Carv. We also show that left ventricular SPRR1A is upregulated in patients with HF and that Sprr1a knockdown in mice prevents maladaptive post-MI remodeling. Lastly, protective roles of CM miR-150 are, in part, attributed to the direct and functional repression of proapoptotic Sprr1a. Our findings suggest a crucial role for the miR-150/SPRR1A axis in regulating CM function post-MI. American Society for Clinical Investigation 2021-09-22 /pmc/articles/PMC8492334/ /pubmed/34403363 http://dx.doi.org/10.1172/jci.insight.150405 Text en © 2021 Aonuma et al. https://creativecommons.org/licenses/by/4.0/This work is licensed under the Creative Commons Attribution 4.0 International License. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Research Article
Aonuma, Tatsuya
Moukette, Bruno
Kawaguchi, Satoshi
Barupala, Nipuni P.
Sepúlveda, Marisa N.
Corr, Christopher
Tang, Yaoliang
Liangpunsakul, Suthat
Payne, R. Mark
Willis, Monte S.
Kim, Il-man
Cardiomyocyte microRNA-150 confers cardiac protection and directly represses proapoptotic small proline–rich protein 1A
title Cardiomyocyte microRNA-150 confers cardiac protection and directly represses proapoptotic small proline–rich protein 1A
title_full Cardiomyocyte microRNA-150 confers cardiac protection and directly represses proapoptotic small proline–rich protein 1A
title_fullStr Cardiomyocyte microRNA-150 confers cardiac protection and directly represses proapoptotic small proline–rich protein 1A
title_full_unstemmed Cardiomyocyte microRNA-150 confers cardiac protection and directly represses proapoptotic small proline–rich protein 1A
title_short Cardiomyocyte microRNA-150 confers cardiac protection and directly represses proapoptotic small proline–rich protein 1A
title_sort cardiomyocyte microrna-150 confers cardiac protection and directly represses proapoptotic small proline–rich protein 1a
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8492334/
https://www.ncbi.nlm.nih.gov/pubmed/34403363
http://dx.doi.org/10.1172/jci.insight.150405
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