MiRNA-181a is a novel regulator of aldosterone-mineralocorticoid receptor-mediated cardiac remodelling.

Abstract

The aldosterone-mineralocorticoid receptor (Aldo-MR) pathway is activated during cardiac stress, such as hypertension, myocardial infarction (MI), and heart failure. The importance of Aldo and MR in the pathogenesis of cardiac diseases is well established; however, the regulatory mechanisms behind Aldo/MR-induced cardiac remodelling remain uncertain. We here investigated potential miRNA-mediated regulation of the Aldo-MR pathway to improve mechanistic understanding. High-throughput screening of 2,555 miRNAs using an MR responsive stable cardiomyocyte cell line (MMTV-GFP-HL-1) identified miR-181a as a potential regulator of Aldo-MR pathway. MiR-181a was found to downregulate the expression of Ngal (lipocalin-2), a well-established downstream effector molecule of Aldo-MR. In addition, Aldo-induced cellular hypertrophy decreased significantly upon miR-181a overexpression. Genetic miR-181 knockout in murine MI model led to deteriorated cardiac function, cardiac remodelling, and activation of Aldo-MR pathway while AAV9-mediated miR-181a overexpression improved cardiac function and deactivated Aldo-MR pathway proving a cardio-protective role of miR-181a. Global RNA sequencing of cells under Aldo treatment with/without miR-181a overexpression identified potential miR-181a targets functionally contributing to Aldo-MR pathway. Adamts1, a direct target of miR-181a, was found to be downregulated with miR-181a overexpression and upregulated with inhibition. Similar to miR-181a overexpression, siRNA-mediated inhibition of Adamts1 inhibited Aldo-MR pathway. We here show that miR-181a is a novel regulator of the Aldo-MR pathway regulating the levels of Ngal via direct targeting of Adamts1. This new insight establishes miR-181a as a factor of immense value participating in downstream networks of Aldo-MR pathway. Our in vivo studies further confirmed miR-181a as cardio-protective under MI stress. Thus, miR-181a's involvement in Aldo-MR-mediated cardiac remodelling confers it with tremendous potential to be developed further as a new therapeutic target.