Lu Zhang1, Antonio Salgado-Somoza1, Melanie Vausort1, Przemyslaw Leszek2, Yvan Devaux3. 1. Cardiovascular Research Unit, Luxembourg Health Institute, Luxembourg. 2. Heart Failure and Transplantology Department, Institute of Cardiology, Warsaw, Poland. 3. Cardiovascular Research Unit, Luxembourg Health Institute, Luxembourg. Electronic address: yvan.devaux@lih.lu.
Abstract
Non-coding RNAs play major roles in cardiac pathophysiology. Recent studies reported that long non-coding RNAs (lncRNAs) are dysregulated in the failing heart, but how they contribute to heart failure development is unclear. In this study, we aimed to identify heart-enriched lncRNAs and investigate their regulation and function in the failing heart. RESULTS: Analysis of a RNA-seq dataset of 15 Caucasian tissues allowed the identification of 415 heart-enriched lncRNAs. Fifty-three lncRNAs were located on the genome in close vicinity to protein-coding genes associated with cardiac function and disease. Analysis of a second RNA-seq dataset of 16 failing human hearts highlighted one lncRNA which we arbitrarily named TRDN-AS due to its localisation in the antisense position of the gene encoding triadin (TRDN). Expression of TRDN-AS and cardiac TRDN was up-regulated in biopsies from failing human hearts compared to control hearts. In failing hearts, TRDN-AS was positively correlated with a cardiac isoform of TRDN and negatively correlated with a skeletal muscle isoform of TRDN. A murine homolog of human TRDN-AS was identified and found to be enriched in the heart and localised in the nuclear compartment of cardiomyocytes. Trdn-AS expression as well as the ratio between cardiac and skeletal muscle isoforms were down-regulated after experimental myocardial infarction. In murine cardiomyocytes, activation of Trdn-AS transcription with the CRISPR/dCas9-VPR system enhanced the ratio between cardiac and skeletal isoforms of Trdn. CONCLUSION: The lncRNA TRDN-AS regulates the balance between cardiac and skeletal isoforms of triadin. This finding may have implications for the treatment of heart failure.
Non-coding RNAs play major roles in cardiac pathophysiology. Recent studies reported that long non-coding RNAs (lncRNAs) are dysregulated in the failing heart, but how they contribute to heart failure development is unclear. In this study, we aimed to identify heart-enriched lncRNAs and investigate their regulation and function in the failing heart. RESULTS: Analysis of a RNA-seq dataset of 15 Caucasian tissues allowed the identification of 415 heart-enriched lncRNAs. Fifty-three lncRNAs were located on the genome in close vicinity to protein-coding genes associated with cardiac function and disease. Analysis of a second RNA-seq dataset of 16 failing human hearts highlighted one lncRNA which we arbitrarily named TRDN-AS due to its localisation in the antisense position of the gene encoding triadin (TRDN). Expression of TRDN-AS and cardiac TRDN was up-regulated in biopsies from failing human hearts compared to control hearts. In failing hearts, TRDN-AS was positively correlated with a cardiac isoform of TRDN and negatively correlated with a skeletal muscle isoform of TRDN. A murine homolog of humanTRDN-AS was identified and found to be enriched in the heart and localised in the nuclear compartment of cardiomyocytes. Trdn-AS expression as well as the ratio between cardiac and skeletal muscle isoforms were down-regulated after experimental myocardial infarction. In murine cardiomyocytes, activation of Trdn-AS transcription with the CRISPR/dCas9-VPR system enhanced the ratio between cardiac and skeletal isoforms of Trdn. CONCLUSION: The lncRNA TRDN-AS regulates the balance between cardiac and skeletal isoforms of triadin. This finding may have implications for the treatment of heart failure.
Authors: Yuanbiao Zhao; Andrew S Riching; Walter E Knight; Congwu Chi; Lindsey J Broadwell; Yanmei Du; Mostafa Abdel-Hafiz; Amrut V Ambardekar; David C Irwin; Catherine Proenza; Hongyan Xu; Leslie A Leinwand; Lori A Walker; Kathleen C Woulfe; Michael R Bristow; Peter M Buttrick; Kunhua Song Journal: Circulation Date: 2022-07-18 Impact factor: 39.918
Authors: Shubhra Acharya; Antonio Salgado-Somoza; Francesca Maria Stefanizzi; Andrew I Lumley; Lu Zhang; Enrico Glaab; Patrick May; Yvan Devaux Journal: Int J Mol Sci Date: 2020-09-06 Impact factor: 5.923