Deletion of Smad3 protects against diabetic myocardiopathy in db/db mice
Diabetic cardiomyopathy (DCM) is a common diabetic complication characterized by diastolic relaxation abnormalities, myocardial fibrosis and chronic heart failure. Although TGF‐β/Smad3 signalling has been shown to play a critical role in chronic heart disease, the role and mechanisms of Smad3 in DCM...
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| Published in | Journal of cellular and molecular medicine Vol. 25; no. 10; pp. 4860 - 4869 |
|---|---|
| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
England
John Wiley & Sons, Inc
01.05.2021
John Wiley and Sons Inc |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1582-1838 1582-4934 1582-4934 |
| DOI | 10.1111/jcmm.16464 |
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| Abstract | Diabetic cardiomyopathy (DCM) is a common diabetic complication characterized by diastolic relaxation abnormalities, myocardial fibrosis and chronic heart failure. Although TGF‐β/Smad3 signalling has been shown to play a critical role in chronic heart disease, the role and mechanisms of Smad3 in DCM remain unclear. We reported here the potential role of Smad3 in the development of DCM by genetically deleting the Smad3 gene from db/db mice. At the age of 32 weeks, Smad3WT‐db/db mice developed moderate to severe DCM as demonstrated by a marked increase in the left ventricular (LV) mass, a significant fall in the LV ejection fraction (EF) and LV fractional shortening (FS), and progressive myocardial fibrosis and inflammation. In contrast, db/db mice lacking Smad3 (Smad3KO‐db/db) were protected against the development of DCM with normal cardiac function and undetectable myocardial inflammation and fibrosis. Interestingly, db/db mice with deleting one copy of Smad3 (Smad3 ± db/db) did not show any cardioprotective effects. Mechanistically, we found that deletion of Smad3 from db/db mice largely protected cardiac Smad7 from Smurf2‐mediated ubiquitin proteasome degradation, thereby inducing IBα to suppress NF‐kB‐driven cardiac inflammation. In addition, deletion of Smad3 also altered Smad3‐dependent miRNAs by up‐regulating cardiac miR‐29b while suppressing miR‐21 to exhibit the cardioprotective effect on Smad3KO‐db/db mice. In conclusion, results from this study reveal that Smad3 is a key mediator in the pathogenesis of DCM. Targeting Smad3 may be a novel therapy for DCM. |
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| AbstractList | Diabetic cardiomyopathy (DCM) is a common diabetic complication characterized by diastolic relaxation abnormalities, myocardial fibrosis and chronic heart failure. Although TGF‐β/Smad3 signalling has been shown to play a critical role in chronic heart disease, the role and mechanisms of Smad3 in DCM remain unclear. We reported here the potential role of Smad3 in the development of DCM by genetically deleting the Smad3 gene from db/db mice. At the age of 32 weeks, Smad3WT‐db/db mice developed moderate to severe DCM as demonstrated by a marked increase in the left ventricular (LV) mass, a significant fall in the LV ejection fraction (EF) and LV fractional shortening (FS), and progressive myocardial fibrosis and inflammation. In contrast, db/db mice lacking Smad3 (Smad3KO‐db/db) were protected against the development of DCM with normal cardiac function and undetectable myocardial inflammation and fibrosis. Interestingly, db/db mice with deleting one copy of Smad3 (Smad3 ± db/db) did not show any cardioprotective effects. Mechanistically, we found that deletion of Smad3 from db/db mice largely protected cardiac Smad7 from Smurf2‐mediated ubiquitin proteasome degradation, thereby inducing IBα to suppress NF‐kB‐driven cardiac inflammation. In addition, deletion of Smad3 also altered Smad3‐dependent miRNAs by up‐regulating cardiac miR‐29b while suppressing miR‐21 to exhibit the cardioprotective effect on Smad3KO‐db/db mice. In conclusion, results from this study reveal that Smad3 is a key mediator in the pathogenesis of DCM. Targeting Smad3 may be a novel therapy for DCM. Diabetic cardiomyopathy (DCM) is a common diabetic complication characterized by diastolic relaxation abnormalities, myocardial fibrosis and chronic heart failure. Although TGF‐β/Smad3 signalling has been shown to play a critical role in chronic heart disease, the role and mechanisms of Smad3 in DCM remain unclear. We reported here the potential role of Smad3 in the development of DCM by genetically deleting the Smad3 gene from db/db mice. At the age of 32 weeks, Smad3WT‐db/db mice developed moderate to severe DCM as demonstrated by a marked increase in the left ventricular (LV) mass, a significant fall in the LV ejection fraction (EF) and LV fractional shortening (FS), and progressive myocardial fibrosis and inflammation. In contrast, db/db mice lacking Smad3 (Smad3KO‐db/db) were protected against the development of DCM with normal cardiac function and undetectable myocardial inflammation and fibrosis. Interestingly, db/db mice with deleting one copy of Smad3 (Smad3 ± db/db) did not show any cardioprotective effects. Mechanistically, we found that deletion of Smad3 from db/db mice largely protected cardiac Smad7 from Smurf2‐mediated ubiquitin proteasome degradation, thereby inducing IBα to suppress NF‐kB‐driven cardiac inflammation. In addition, deletion of Smad3 also altered Smad3‐dependent miRNAs by up‐regulating cardiac miR‐29b while suppressing miR‐21 to exhibit the cardioprotective effect on Smad3KO‐db/db mice. In conclusion, results from this study reveal that Smad3 is a key mediator in the pathogenesis of DCM. Targeting Smad3 may be a novel therapy for DCM. Diabetic cardiomyopathy (DCM) is a common diabetic complication characterized by diastolic relaxation abnormalities, myocardial fibrosis and chronic heart failure. Although TGF-β/Smad3 signalling has been shown to play a critical role in chronic heart disease, the role and mechanisms of Smad3 in DCM remain unclear. We reported here the potential role of Smad3 in the development of DCM by genetically deleting the Smad3 gene from db/db mice. At the age of 32 weeks, Smad3WT-db/db mice developed moderate to severe DCM as demonstrated by a marked increase in the left ventricular (LV) mass, a significant fall in the LV ejection fraction (EF) and LV fractional shortening (FS), and progressive myocardial fibrosis and inflammation. In contrast, db/db mice lacking Smad3 (Smad3KO-db/db) were protected against the development of DCM with normal cardiac function and undetectable myocardial inflammation and fibrosis. Interestingly, db/db mice with deleting one copy of Smad3 (Smad3 ± db/db) did not show any cardioprotective effects. Mechanistically, we found that deletion of Smad3 from db/db mice largely protected cardiac Smad7 from Smurf2-mediated ubiquitin proteasome degradation, thereby inducing IBα to suppress NF-kB-driven cardiac inflammation. In addition, deletion of Smad3 also altered Smad3-dependent miRNAs by up-regulating cardiac miR-29b while suppressing miR-21 to exhibit the cardioprotective effect on Smad3KO-db/db mice. In conclusion, results from this study reveal that Smad3 is a key mediator in the pathogenesis of DCM. Targeting Smad3 may be a novel therapy for DCM.Diabetic cardiomyopathy (DCM) is a common diabetic complication characterized by diastolic relaxation abnormalities, myocardial fibrosis and chronic heart failure. Although TGF-β/Smad3 signalling has been shown to play a critical role in chronic heart disease, the role and mechanisms of Smad3 in DCM remain unclear. We reported here the potential role of Smad3 in the development of DCM by genetically deleting the Smad3 gene from db/db mice. At the age of 32 weeks, Smad3WT-db/db mice developed moderate to severe DCM as demonstrated by a marked increase in the left ventricular (LV) mass, a significant fall in the LV ejection fraction (EF) and LV fractional shortening (FS), and progressive myocardial fibrosis and inflammation. In contrast, db/db mice lacking Smad3 (Smad3KO-db/db) were protected against the development of DCM with normal cardiac function and undetectable myocardial inflammation and fibrosis. Interestingly, db/db mice with deleting one copy of Smad3 (Smad3 ± db/db) did not show any cardioprotective effects. Mechanistically, we found that deletion of Smad3 from db/db mice largely protected cardiac Smad7 from Smurf2-mediated ubiquitin proteasome degradation, thereby inducing IBα to suppress NF-kB-driven cardiac inflammation. In addition, deletion of Smad3 also altered Smad3-dependent miRNAs by up-regulating cardiac miR-29b while suppressing miR-21 to exhibit the cardioprotective effect on Smad3KO-db/db mice. In conclusion, results from this study reveal that Smad3 is a key mediator in the pathogenesis of DCM. Targeting Smad3 may be a novel therapy for DCM. |
| Author | Yang, Si‐Jin Ma, Ronald C. W. Wang, Li Wang, Hong‐Lian Li, Jian‐Chun Hu, Zhong‐Jing Lan, Hui‐Yao Huang, Xiao‐Ru Dong, Li |
| AuthorAffiliation | 2 Department of Medicine and Therapeutics Li Ka Shing Institute of Health Sciences Lui Che Woo Institute of Innovative Medicine The Chinese University of Hong Kong Hong Kong China 3 Guangdong‐Hong Kong Joint Laboratory on Immunological and Genetic Kidney Diseases Guangdong Provincial People’s Hospital Guangdong Academy of Medical Sciences Guangzhou China 1 Department of Cardiovascular Medicine Research Center of Integrated Traditional Chinese and Western Medicine The TCM Affiliated Hospital of Southwest Medical University Luzhou China |
| AuthorAffiliation_xml | – name: 2 Department of Medicine and Therapeutics Li Ka Shing Institute of Health Sciences Lui Che Woo Institute of Innovative Medicine The Chinese University of Hong Kong Hong Kong China – name: 1 Department of Cardiovascular Medicine Research Center of Integrated Traditional Chinese and Western Medicine The TCM Affiliated Hospital of Southwest Medical University Luzhou China – name: 3 Guangdong‐Hong Kong Joint Laboratory on Immunological and Genetic Kidney Diseases Guangdong Provincial People’s Hospital Guangdong Academy of Medical Sciences Guangzhou China |
| Author_xml | – sequence: 1 givenname: Li surname: Dong fullname: Dong, Li organization: The Chinese University of Hong Kong – sequence: 2 givenname: Jian‐Chun surname: Li fullname: Li, Jian‐Chun organization: The Chinese University of Hong Kong – sequence: 3 givenname: Zhong‐Jing surname: Hu fullname: Hu, Zhong‐Jing organization: The Chinese University of Hong Kong – sequence: 4 givenname: Xiao‐Ru surname: Huang fullname: Huang, Xiao‐Ru organization: Guangdong Academy of Medical Sciences – sequence: 5 givenname: Li orcidid: 0000-0003-3881-3149 surname: Wang fullname: Wang, Li organization: The TCM Affiliated Hospital of Southwest Medical University – sequence: 6 givenname: Hong‐Lian surname: Wang fullname: Wang, Hong‐Lian organization: The Chinese University of Hong Kong – sequence: 7 givenname: Ronald C. W. surname: Ma fullname: Ma, Ronald C. W. organization: The Chinese University of Hong Kong – sequence: 8 givenname: Hui‐Yao orcidid: 0000-0003-4283-9755 surname: Lan fullname: Lan, Hui‐Yao email: hylan@cuhk.edu.hk organization: The Chinese University of Hong Kong – sequence: 9 givenname: Si‐Jin surname: Yang fullname: Yang, Si‐Jin organization: The TCM Affiliated Hospital of Southwest Medical University |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/33733577$$D View this record in MEDLINE/PubMed |
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| Keywords | Smad3 fibrosis diabetic myocardiopathy miR-29 miR-21 inflammation |
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| License | Attribution 2021 The Authors. Journal of Cellular and Molecular Medicine published by Foundation for Cellular and Molecular Medicine and John Wiley & Sons Ltd. This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited. |
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| SubjectTerms | Antibodies Blood pressure Cardiac function Cardiomyopathy Collagen Congestive heart failure Coronary artery disease Diabetes Diabetes mellitus diabetic myocardiopathy Ejection fraction Fibrosis Gene expression Heart Heart diseases Hyperglycemia Hypertension Inflammation Metabolism miR‐21 miR‐29 NF-κB protein Original Pathogenesis Proteasomes Rodents Smad3 Smad3 protein Smad7 protein Transforming growth factor-b Ubiquitin Variance analysis Ventricle |
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| Title | Deletion of Smad3 protects against diabetic myocardiopathy in db/db mice |
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