Myosin light-chain 4 gene-transfer attenuates atrial fibrosis while correcting autophagic flux dysregulation

OBJECTIVES: To determine the role of MYL4 regulation of lysosomal function and its disturbance in fibrotic atrial cardiomyopathy. BACKGROUND: We have previously demonstrated that the atrial-specific essential light chain protein MYL4 is required for atrial contractile, electrical, and structural int...

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Autores principales: Zhong, Yuan, Tang, Kai, Nattel, Stanley, Zhai, Ming, Gong, Shiyu, Yu, Qing, Zeng, Yanxi, E, Guangxi, Maimaitiaili, Nuerbiyemu, Wang, Jun, Xu, Yawei, Peng, Wenhui, Li, Hailing
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2023
Materias:
Research Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9860351/
https://www.ncbi.nlm.nih.gov/pubmed/36645977
http://dx.doi.org/10.1016/j.redox.2023.102606
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author Zhong, Yuan
Tang, Kai
Nattel, Stanley
Zhai, Ming
Gong, Shiyu
Yu, Qing
Zeng, Yanxi
E, Guangxi
Maimaitiaili, Nuerbiyemu
Wang, Jun
Xu, Yawei
Peng, Wenhui
Li, Hailing
author_facet Zhong, Yuan
Tang, Kai
Nattel, Stanley
Zhai, Ming
Gong, Shiyu
Yu, Qing
Zeng, Yanxi
E, Guangxi
Maimaitiaili, Nuerbiyemu
Wang, Jun
Xu, Yawei
Peng, Wenhui
Li, Hailing
author_sort Zhong, Yuan
collection PubMed
description OBJECTIVES: To determine the role of MYL4 regulation of lysosomal function and its disturbance in fibrotic atrial cardiomyopathy. BACKGROUND: We have previously demonstrated that the atrial-specific essential light chain protein MYL4 is required for atrial contractile, electrical, and structural integrity. MYL4 mutation/dysfunction leads to atrial fibrosis, standstill, and dysrhythmia. However, the underlying pathogenic mechanisms remain unclear. METHODS AND RESULTS: Rats subjected to knock-in of a pathogenic MYL4 mutant (p.E11K) developed fibrotic atrial cardiomyopathy. Proteome analysis and single-cell RNA sequencing indicate enrichment of autophagy pathways in mutant-MYL4 atrial dysfunction. Immunofluorescence and electron microscopy revealed undegraded autophagic vesicles accumulated in MYL4(p.E11K) rat atrium. Next, we identified that dysfunctional MYL4 protein impairs autophagy flux in vitro and in vivo. Cardiac lysosome positioning and mobility were regulated by MYL4 in cardiomyocytes, which affected lysosomal acidification and maturation of lysosomal cathepsins. We then examined the effects of MYL4 overexpression via adenoviral gene-transfer on atrial cardiomyopathy induced by MYL4 mutation: MYL4 protein overexpression attenuated atrial structural remodeling and autophagy dysfunction. CONCLUSIONS: MYL4 regulates autophagic flux in atrial cardiomyocytes via lysosomal mobility. MYL4 overexpression attenuates MYL4 p.E11K induced fibrotic atrial cardiomyopathy, while correcting autophagy and lysosomal function. These results provide a molecular basis for MYL4-mutant induced fibrotic atrial cardiomyopathy and identify a potential biological-therapy approach for the treatment of atrial fibrosis.
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spelling pubmed-98603512023-01-22 Myosin light-chain 4 gene-transfer attenuates atrial fibrosis while correcting autophagic flux dysregulation Zhong, Yuan Tang, Kai Nattel, Stanley Zhai, Ming Gong, Shiyu Yu, Qing Zeng, Yanxi E, Guangxi Maimaitiaili, Nuerbiyemu Wang, Jun Xu, Yawei Peng, Wenhui Li, Hailing Redox Biol Research Paper OBJECTIVES: To determine the role of MYL4 regulation of lysosomal function and its disturbance in fibrotic atrial cardiomyopathy. BACKGROUND: We have previously demonstrated that the atrial-specific essential light chain protein MYL4 is required for atrial contractile, electrical, and structural integrity. MYL4 mutation/dysfunction leads to atrial fibrosis, standstill, and dysrhythmia. However, the underlying pathogenic mechanisms remain unclear. METHODS AND RESULTS: Rats subjected to knock-in of a pathogenic MYL4 mutant (p.E11K) developed fibrotic atrial cardiomyopathy. Proteome analysis and single-cell RNA sequencing indicate enrichment of autophagy pathways in mutant-MYL4 atrial dysfunction. Immunofluorescence and electron microscopy revealed undegraded autophagic vesicles accumulated in MYL4(p.E11K) rat atrium. Next, we identified that dysfunctional MYL4 protein impairs autophagy flux in vitro and in vivo. Cardiac lysosome positioning and mobility were regulated by MYL4 in cardiomyocytes, which affected lysosomal acidification and maturation of lysosomal cathepsins. We then examined the effects of MYL4 overexpression via adenoviral gene-transfer on atrial cardiomyopathy induced by MYL4 mutation: MYL4 protein overexpression attenuated atrial structural remodeling and autophagy dysfunction. CONCLUSIONS: MYL4 regulates autophagic flux in atrial cardiomyocytes via lysosomal mobility. MYL4 overexpression attenuates MYL4 p.E11K induced fibrotic atrial cardiomyopathy, while correcting autophagy and lysosomal function. These results provide a molecular basis for MYL4-mutant induced fibrotic atrial cardiomyopathy and identify a potential biological-therapy approach for the treatment of atrial fibrosis. Elsevier 2023-01-11 /pmc/articles/PMC9860351/ /pubmed/36645977 http://dx.doi.org/10.1016/j.redox.2023.102606 Text en © 2023 The Authors https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Research Paper
Zhong, Yuan
Tang, Kai
Nattel, Stanley
Zhai, Ming
Gong, Shiyu
Yu, Qing
Zeng, Yanxi
E, Guangxi
Maimaitiaili, Nuerbiyemu
Wang, Jun
Xu, Yawei
Peng, Wenhui
Li, Hailing
Myosin light-chain 4 gene-transfer attenuates atrial fibrosis while correcting autophagic flux dysregulation
title Myosin light-chain 4 gene-transfer attenuates atrial fibrosis while correcting autophagic flux dysregulation
title_full Myosin light-chain 4 gene-transfer attenuates atrial fibrosis while correcting autophagic flux dysregulation
title_fullStr Myosin light-chain 4 gene-transfer attenuates atrial fibrosis while correcting autophagic flux dysregulation
title_full_unstemmed Myosin light-chain 4 gene-transfer attenuates atrial fibrosis while correcting autophagic flux dysregulation
title_short Myosin light-chain 4 gene-transfer attenuates atrial fibrosis while correcting autophagic flux dysregulation
title_sort myosin light-chain 4 gene-transfer attenuates atrial fibrosis while correcting autophagic flux dysregulation
topic Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9860351/
https://www.ncbi.nlm.nih.gov/pubmed/36645977
http://dx.doi.org/10.1016/j.redox.2023.102606
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