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Therapeutic targeting of aldosterone: a novel approach to the treatment of glomerular disease

Journal

CLINICAL SCIENCE
Volume 128, Issue 9, Pages 527-535

Publisher

PORTLAND PRESS LTD
DOI: 10.1042/CS20140432

Keywords

aldosterone; apoptosis; glomerulus; glycogen synthase kinase 3 beta; mesangial cell; mineralocorticoid receptor; mitochnodrial dysfunction; podocyte; proliferation; reactive oxygen species

Funding

  1. U.S. National Institutes of Health [R01DK092485]

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Numerous studies have established a role for mineralocorticoids in the development of renal fibrosis. Originally, the research focus for mineralocorticoid-induced fibrosis was on the collecting duct, where 'classical' mineralocorticoid receptors (MRs) involved with electrolyte transport are present. Epithelial cells in this segment can, under selected circumstances, also respond to MR activation by initiating pro-fibrotic pathways. More recently, 'non-classical' MRs have been described in kidney cells not associated with electrolyte transport, including mesangial cells and podocytes within the glomerulus. Activation of MRs in these cells appears to lead to glomerular sclerosis. Mechanistically, aldosterone induces excess production of reactive oxygen species (ROS) and oxidative stress in glomerular cells through activation of NADPH oxidase. In mesangial cells, aldosterone also has pro-apoptotic, mitogenic and pro-fibrogenic effects, all of which potentially promote active remodelling and expansion of the mesangium. Although mitochondrial dysfunction seems to mediate the aldosterone-induced mesangial apoptosis, the ROS dependent epithelial growth factor receptor (EGFR) transactivation is probably responsible for aldosterone-induced mesangial mitosis and proliferation. In podocytes, mitochondrial dysfunction elicited by oxidative stress is an early event associated with aldosterone-induced podocyte injury. Both the p38 MAPK (p38 mitogen-activated protein kinase) signalling and the redox-sensitive glycogen synthase kinase (GSK) 3 beta pathways are centrally implicated in aldosterone-induced podocyte death. Aldosterone-induced GSK3 beta over-activity could potentially cause hyperphosphorylation and over-activation of putative GSK3 beta substrates, including structural components of the mitochondrial permeability transition (MPT) pore, all of which lead to cell injury and death. Clinically, proteinuria significantly decreases when aldosterone inhibitors are included in the treatment of many glomerular diseases further supporting the view that mineralocorticoids are important players in glomerular pathology.

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