Cardiac ISL1-Interacting Protein, a Cardioprotective Factor, Inhibits the Transition From Cardiac Hypertrophy to Heart Failure

Heart failure is characterized by the inability of the heart to pump effectively and generate proper blood circulation to meet the body’s needs; it is a devastating condition that affects more than 100 million people globally. In spite of this, little is known about the mechanisms regulating the tra...

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Autores principales: Yan, Youchen, Long, Tianxin, Su, Qiao, Wang, Yi, Chen, Ken, Yang, Tiqun, Zhao, Guangyin, Ma, Qing, Hu, Xiaoyun, Liu, Chen, Liao, Xinxue, Min, Wang, Li, Shujuan, Zhang, Dihua, Yang, Yuedong, Pu, William T., Dong, Yugang, Wang, Da-Zhi, Chen, Yili, Huang, Zhan-Peng
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2022
Materias:
Cardiovascular Medicine
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8970336/
https://www.ncbi.nlm.nih.gov/pubmed/35369338
http://dx.doi.org/10.3389/fcvm.2022.857049
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author Yan, Youchen
Long, Tianxin
Su, Qiao
Wang, Yi
Chen, Ken
Yang, Tiqun
Zhao, Guangyin
Ma, Qing
Hu, Xiaoyun
Liu, Chen
Liao, Xinxue
Min, Wang
Li, Shujuan
Zhang, Dihua
Yang, Yuedong
Pu, William T.
Dong, Yugang
Wang, Da-Zhi
Chen, Yili
Huang, Zhan-Peng
author_facet Yan, Youchen
Long, Tianxin
Su, Qiao
Wang, Yi
Chen, Ken
Yang, Tiqun
Zhao, Guangyin
Ma, Qing
Hu, Xiaoyun
Liu, Chen
Liao, Xinxue
Min, Wang
Li, Shujuan
Zhang, Dihua
Yang, Yuedong
Pu, William T.
Dong, Yugang
Wang, Da-Zhi
Chen, Yili
Huang, Zhan-Peng
author_sort Yan, Youchen
collection PubMed
description Heart failure is characterized by the inability of the heart to pump effectively and generate proper blood circulation to meet the body’s needs; it is a devastating condition that affects more than 100 million people globally. In spite of this, little is known about the mechanisms regulating the transition from cardiac hypertrophy to heart failure. Previously, we identified a cardiomyocyte-enriched gene, CIP, which regulates cardiac homeostasis under pathological stimulation. Here, we show that the cardiac transcriptional factor GATA4 binds the promotor of CIP gene and regulates its expression. We further determined that both CIP mRNA and protein decrease in diseased human hearts. In a mouse model, induced cardiac-specific overexpression of CIP after the establishment of cardiac hypertrophy protects the heart by inhibiting disease progression toward heart failure. Transcriptome analyses revealed that the IGF, mTORC2 and TGFβ signaling pathways mediate the inhibitory function of CIP on pathologic cardiac remodeling. Our study demonstrates GATA4 as an upstream regulator of CIP gene expression in cardiomyocytes, as well as the clinical significance of CIP expression in human heart disease. More importantly, our investigation suggests CIP is a key regulator of the transition from cardiac hypertrophy to heart failure. The ability of CIP to intervene in the onset of heart failure suggests a novel therapeutic avenue of investigation for the prevention of heart disease progression.
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spelling pubmed-89703362022-04-01 Cardiac ISL1-Interacting Protein, a Cardioprotective Factor, Inhibits the Transition From Cardiac Hypertrophy to Heart Failure Yan, Youchen Long, Tianxin Su, Qiao Wang, Yi Chen, Ken Yang, Tiqun Zhao, Guangyin Ma, Qing Hu, Xiaoyun Liu, Chen Liao, Xinxue Min, Wang Li, Shujuan Zhang, Dihua Yang, Yuedong Pu, William T. Dong, Yugang Wang, Da-Zhi Chen, Yili Huang, Zhan-Peng Front Cardiovasc Med Cardiovascular Medicine Heart failure is characterized by the inability of the heart to pump effectively and generate proper blood circulation to meet the body’s needs; it is a devastating condition that affects more than 100 million people globally. In spite of this, little is known about the mechanisms regulating the transition from cardiac hypertrophy to heart failure. Previously, we identified a cardiomyocyte-enriched gene, CIP, which regulates cardiac homeostasis under pathological stimulation. Here, we show that the cardiac transcriptional factor GATA4 binds the promotor of CIP gene and regulates its expression. We further determined that both CIP mRNA and protein decrease in diseased human hearts. In a mouse model, induced cardiac-specific overexpression of CIP after the establishment of cardiac hypertrophy protects the heart by inhibiting disease progression toward heart failure. Transcriptome analyses revealed that the IGF, mTORC2 and TGFβ signaling pathways mediate the inhibitory function of CIP on pathologic cardiac remodeling. Our study demonstrates GATA4 as an upstream regulator of CIP gene expression in cardiomyocytes, as well as the clinical significance of CIP expression in human heart disease. More importantly, our investigation suggests CIP is a key regulator of the transition from cardiac hypertrophy to heart failure. The ability of CIP to intervene in the onset of heart failure suggests a novel therapeutic avenue of investigation for the prevention of heart disease progression. Frontiers Media S.A. 2022-03-17 /pmc/articles/PMC8970336/ /pubmed/35369338 http://dx.doi.org/10.3389/fcvm.2022.857049 Text en Copyright © 2022 Yan, Long, Su, Wang, Chen, Yang, Zhao, Ma, Hu, Liu, Liao, Min, Li, Zhang, Yang, Pu, Dong, Wang, Chen and Huang. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Cardiovascular Medicine
Yan, Youchen
Long, Tianxin
Su, Qiao
Wang, Yi
Chen, Ken
Yang, Tiqun
Zhao, Guangyin
Ma, Qing
Hu, Xiaoyun
Liu, Chen
Liao, Xinxue
Min, Wang
Li, Shujuan
Zhang, Dihua
Yang, Yuedong
Pu, William T.
Dong, Yugang
Wang, Da-Zhi
Chen, Yili
Huang, Zhan-Peng
Cardiac ISL1-Interacting Protein, a Cardioprotective Factor, Inhibits the Transition From Cardiac Hypertrophy to Heart Failure
title Cardiac ISL1-Interacting Protein, a Cardioprotective Factor, Inhibits the Transition From Cardiac Hypertrophy to Heart Failure
title_full Cardiac ISL1-Interacting Protein, a Cardioprotective Factor, Inhibits the Transition From Cardiac Hypertrophy to Heart Failure
title_fullStr Cardiac ISL1-Interacting Protein, a Cardioprotective Factor, Inhibits the Transition From Cardiac Hypertrophy to Heart Failure
title_full_unstemmed Cardiac ISL1-Interacting Protein, a Cardioprotective Factor, Inhibits the Transition From Cardiac Hypertrophy to Heart Failure
title_short Cardiac ISL1-Interacting Protein, a Cardioprotective Factor, Inhibits the Transition From Cardiac Hypertrophy to Heart Failure
title_sort cardiac isl1-interacting protein, a cardioprotective factor, inhibits the transition from cardiac hypertrophy to heart failure
topic Cardiovascular Medicine
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8970336/
https://www.ncbi.nlm.nih.gov/pubmed/35369338
http://dx.doi.org/10.3389/fcvm.2022.857049
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