Rene Baudrand1, Luminita H Pojoga, Jose R Romero, Gordon H Williams. 1. aDivision of Endocrinology, Diabetes and Hypertension, Department of Medicine, Brigham and Women's Hospital, Harvard Medical School. Boston, Massachusetts, USA bDepartment of Endocrinology, School of Medicine, Pontificia Universidad Catolica De Chile, Santiago, Chile.
Abstract
PURPOSE OF REVIEW: Aldosterone's functions and mechanisms of action are different depending on the tissue and the environmental condition. The mineralocorticoid receptor is present in tissues beyond epithelial cells, including the heart and vessels. Furthermore, aldosterone has direct adverse effects by both genomic and rapid/nongenomic actions not only through a nuclear receptor but also through caveolae-mediated intracellular events. Also, multiple environmental-genetic interactions play an important role in salt-sensitive hypertension (SSH) and aldosterone modulation. These findings have reshaped our vision of aldosterone's role in cardiovascular pathophysiology. This review describes new mediators of aldosterone's mechanisms of action: lysine-specific demethylase 1 (LSD1), caveolin 1 (cav-1) and striatin. RECENT FINDINGS: LSD1, an epigenetic regulator, is involved in the pathogenesis of SSH in both humans and rodents. In addition, cav-1, the main component of caveolae, plays a substantial role in mediating aldosterone pathways of SSH. The mineralocorticoid receptor interacts with cav-1 and is modulated by sodium intake. Finally, striatin, a scaffolding protein, mediates a novel interaction between signalling molecules and mineralocorticoid receptor's rapid effects in the cardiovascular system. SUMMARY: Substantial progress in aldosterone's functions and mechanisms of action should facilitate the study of cardiovascular diseases and the role of sodium intake in aldosterone-induced damage.
PURPOSE OF REVIEW: Aldosterone's functions and mechanisms of action are different depending on the tissue and the environmental condition. The mineralocorticoid receptor is present in tissues beyond epithelial cells, including the heart and vessels. Furthermore, aldosterone has direct adverse effects by both genomic and rapid/nongenomic actions not only through a nuclear receptor but also through caveolae-mediated intracellular events. Also, multiple environmental-genetic interactions play an important role in salt-sensitive hypertension (SSH) and aldosterone modulation. These findings have reshaped our vision of aldosterone's role in cardiovascular pathophysiology. This review describes new mediators of aldosterone's mechanisms of action: lysine-specific demethylase 1 (LSD1), caveolin 1 (cav-1) and striatin. RECENT FINDINGS:LSD1, an epigenetic regulator, is involved in the pathogenesis of SSH in both humans and rodents. In addition, cav-1, the main component of caveolae, plays a substantial role in mediating aldosterone pathways of SSH. The mineralocorticoid receptor interacts with cav-1 and is modulated by sodium intake. Finally, striatin, a scaffolding protein, mediates a novel interaction between signalling molecules and mineralocorticoid receptor's rapid effects in the cardiovascular system. SUMMARY: Substantial progress in aldosterone's functions and mechanisms of action should facilitate the study of cardiovascular diseases and the role of sodium intake in aldosterone-induced damage.
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