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- Larbi Amazit, Florian Le Billan, Peter Kolkhof, Khadija Lamribet, Say Viengchareun, Michel R Fay, Junaid A Khan, Alexander Hillisch, Marc Lombès, Marie-Edith Rafestin-Oblin, and Jérôme Fagart.
- From the INSERM, UMR-S 1185, Le Kremlin-Bicêtre F-94276, France, the Faculté de Médecine Paris-Sud, Université Paris-Sud, UMR-S 1185, Le Kremlin-Bicêtre F-94276, France, UMS 32, Institut Biomédical de Bicêtre, Le Kremlin-Bicêtre F-94276, France.
- J. Biol. Chem. 2015 Sep 4; 290 (36): 21876-89.
AbstractAldosterone regulates sodium homeostasis by activating the mineralocorticoid receptor (MR), a member of the nuclear receptor superfamily. Hyperaldosteronism leads todeleterious effects on the kidney, blood vessels, and heart. Although steroidal antagonists such as spironolactone and eplerenone are clinically useful for the treatment of cardiovascular diseases, they are associated with several side effects. Finerenone, a novel nonsteroidal MR antagonist, is presently being evaluated in two clinical phase IIb trials. Here, we characterized the molecular mechanisms of action of finerenone and spironolactone at several key steps of the MR signaling pathway. Molecular modeling and mutagenesis approaches allowed identification of Ser-810 and Ala-773 as key residues for the high MR selectivity of finerenone. Moreover, we showed that, in contrast to spironolactone, which activates the S810L mutant MR responsible for a severe form of early onset hypertension, finerenone displays strict antagonistic properties. Aldosterone-dependent phosphorylation and degradation of MR are inhibited by both finerenone and spironolactone. However, automated quantification of MR subcellular distribution demonstrated that finerenone delays aldosterone-induced nuclear accumulation of MR more efficiently than spironolactone. Finally, chromatin immunoprecipitation assays revealed that, as opposed to spironolactone, finerenone inhibits MR, steroid receptor coactivator-1, and RNA polymerase II binding at the regulatory sequence of the SCNN1A gene and also remarkably reduces basal MR and steroid receptor coactivator-1 recruitment, unraveling a specific and unrecognized inactivating mechanism on MR signaling. Overall, our data demonstrate that the highly potent and selective MR antagonist finerenone specifically impairs several critical steps of the MR signaling pathway and therefore represents a promising new generation MR antagonist. © 2015 by The American Society for Biochemistry and Molecular Biology, Inc.
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