YAP Circular RNA, circYap, Attenuates Cardiac Fibrosis via Binding with Tropomyosin-4 and Gamma-Actin Decreasing Actin Polymerization

Cardiac fibrosis is a common pathological feature of cardiac hypertrophy. This study was designed to investigate a novel function of Yes-associated protein (YAP) circular RNA, circYap, in modulating cardiac fibrosis and the underlying mechanisms. By circular RNA sequencing, we found that three out o...

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Autores principales: Wu, Nan, Xu, Jindong, Du, William W., Li, Xiangmin, Awan, Faryal Mehwish, Li, Feiya, Misir, Sema, Eshaghi, Esra, Lyu, Juanjuan, Zhou, Le, Zeng, Kaixuan, Adil, Aisha, Wang, Sheng, Yang, Burton B.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society of Gene & Cell Therapy 2021
Materias:
Original Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7934790/
https://www.ncbi.nlm.nih.gov/pubmed/33279723
http://dx.doi.org/10.1016/j.ymthe.2020.12.004
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author Wu, Nan
Xu, Jindong
Du, William W.
Li, Xiangmin
Awan, Faryal Mehwish
Li, Feiya
Misir, Sema
Eshaghi, Esra
Lyu, Juanjuan
Zhou, Le
Zeng, Kaixuan
Adil, Aisha
Wang, Sheng
Yang, Burton B.
author_facet Wu, Nan
Xu, Jindong
Du, William W.
Li, Xiangmin
Awan, Faryal Mehwish
Li, Feiya
Misir, Sema
Eshaghi, Esra
Lyu, Juanjuan
Zhou, Le
Zeng, Kaixuan
Adil, Aisha
Wang, Sheng
Yang, Burton B.
author_sort Wu, Nan
collection PubMed
description Cardiac fibrosis is a common pathological feature of cardiac hypertrophy. This study was designed to investigate a novel function of Yes-associated protein (YAP) circular RNA, circYap, in modulating cardiac fibrosis and the underlying mechanisms. By circular RNA sequencing, we found that three out of fifteen reported circYap isoforms were expressed in nine human heart tissues, with the isoform hsa_circ_0002320 being the highest. The levels of this isoform in the hearts of patients with cardiac hypertrophy were found to be significantly decreased. In the pressure overload mouse model, the levels of circYap were reduced in mouse hearts with transverse aortic constriction (TAC). Upon circYap plasmid injection, the cardiac fibrosis was attenuated, and the heart function was improved along with the elevation of cardiac circYap levels in TAC mice. Tropomyosin-4 (TMP4) and gamma-actin (ACTG) were identified to bind with circYap in cardiac cells and mouse heart tissues. Such bindings led to an increased TPM4 interaction with ACTG, resulting in the inhibition of actin polymerization and the following fibrosis. Collectively, our study uncovered a novel molecule that could regulate cardiac remodeling during cardiac fibrosis and implicated a new function of circular RNA. This process may be targeted for future cardio-therapy.
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spelling pubmed-79347902022-03-03 YAP Circular RNA, circYap, Attenuates Cardiac Fibrosis via Binding with Tropomyosin-4 and Gamma-Actin Decreasing Actin Polymerization Wu, Nan Xu, Jindong Du, William W. Li, Xiangmin Awan, Faryal Mehwish Li, Feiya Misir, Sema Eshaghi, Esra Lyu, Juanjuan Zhou, Le Zeng, Kaixuan Adil, Aisha Wang, Sheng Yang, Burton B. Mol Ther Original Article Cardiac fibrosis is a common pathological feature of cardiac hypertrophy. This study was designed to investigate a novel function of Yes-associated protein (YAP) circular RNA, circYap, in modulating cardiac fibrosis and the underlying mechanisms. By circular RNA sequencing, we found that three out of fifteen reported circYap isoforms were expressed in nine human heart tissues, with the isoform hsa_circ_0002320 being the highest. The levels of this isoform in the hearts of patients with cardiac hypertrophy were found to be significantly decreased. In the pressure overload mouse model, the levels of circYap were reduced in mouse hearts with transverse aortic constriction (TAC). Upon circYap plasmid injection, the cardiac fibrosis was attenuated, and the heart function was improved along with the elevation of cardiac circYap levels in TAC mice. Tropomyosin-4 (TMP4) and gamma-actin (ACTG) were identified to bind with circYap in cardiac cells and mouse heart tissues. Such bindings led to an increased TPM4 interaction with ACTG, resulting in the inhibition of actin polymerization and the following fibrosis. Collectively, our study uncovered a novel molecule that could regulate cardiac remodeling during cardiac fibrosis and implicated a new function of circular RNA. This process may be targeted for future cardio-therapy. American Society of Gene & Cell Therapy 2021-03-03 2020-12-03 /pmc/articles/PMC7934790/ /pubmed/33279723 http://dx.doi.org/10.1016/j.ymthe.2020.12.004 Text en © 2020 The Author(s) http://creativecommons.org/licenses/by/4.0/ This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Original Article
Wu, Nan
Xu, Jindong
Du, William W.
Li, Xiangmin
Awan, Faryal Mehwish
Li, Feiya
Misir, Sema
Eshaghi, Esra
Lyu, Juanjuan
Zhou, Le
Zeng, Kaixuan
Adil, Aisha
Wang, Sheng
Yang, Burton B.
YAP Circular RNA, circYap, Attenuates Cardiac Fibrosis via Binding with Tropomyosin-4 and Gamma-Actin Decreasing Actin Polymerization
title YAP Circular RNA, circYap, Attenuates Cardiac Fibrosis via Binding with Tropomyosin-4 and Gamma-Actin Decreasing Actin Polymerization
title_full YAP Circular RNA, circYap, Attenuates Cardiac Fibrosis via Binding with Tropomyosin-4 and Gamma-Actin Decreasing Actin Polymerization
title_fullStr YAP Circular RNA, circYap, Attenuates Cardiac Fibrosis via Binding with Tropomyosin-4 and Gamma-Actin Decreasing Actin Polymerization
title_full_unstemmed YAP Circular RNA, circYap, Attenuates Cardiac Fibrosis via Binding with Tropomyosin-4 and Gamma-Actin Decreasing Actin Polymerization
title_short YAP Circular RNA, circYap, Attenuates Cardiac Fibrosis via Binding with Tropomyosin-4 and Gamma-Actin Decreasing Actin Polymerization
title_sort yap circular rna, circyap, attenuates cardiac fibrosis via binding with tropomyosin-4 and gamma-actin decreasing actin polymerization
topic Original Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7934790/
https://www.ncbi.nlm.nih.gov/pubmed/33279723
http://dx.doi.org/10.1016/j.ymthe.2020.12.004
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