作者
Svetlana N Reilly, Xing Liu, Ricardo Carnicer, Alice Recalde, Anna Muszkiewicz, Raja Jayaram, Maria Cristina Carena, Rohan Wijesurendra, Matilde Stefanini, Nicoletta C Surdo, Oliver Lomas, Chandana Ratnatunga, Rana Sayeed, George Krasopoulos, Timothy Rajakumar, Alfonso Bueno-Orovio, Sander Verheule, Tudor A Fulga, Blanca Rodriguez, Ulrich Schotten, Barbara Casadei
发表日期
2016/5/25
期刊
Science translational medicine
卷号
8
期号
340
页码范围
340ra74-340ra74
出版商
American Association for the Advancement of Science
简介
Atrial fibrillation (AF) is a growing public health burden, and its treatment remains a challenge. AF leads to electrical remodeling of the atria, which in turn promotes AF maintenance and resistance to treatment. Although remodeling has long been a therapeutic target in AF, its causes remain poorly understood. We show that atrial-specific up-regulation of microRNA-31 (miR-31) in goat and human AF depletes neuronal nitric oxide synthase (nNOS) by accelerating mRNA decay and alters nNOS subcellular localization by repressing dystrophin translation. By shortening action potential duration and abolishing rate-dependent adaptation of the action potential duration, miR-31 overexpression and/or disruption of nNOS signaling recapitulates features of AF-induced remodeling and significantly increases AF inducibility in mice in vivo. By contrast, silencing miR-31 in atrial myocytes from patients with AF restores …
学术搜索中的文章
SN Reilly, X Liu, R Carnicer, A Recalde, A Muszkiewicz… - Science translational medicine, 2016