HSD2 neurons are evolutionarily conserved and required for aldosterone-induced salt appetite

Author:

Gasparini SilviaORCID,Peltekian Lila,McDonough Miriam C.ORCID,Mitchell Chidera J.A.,Hefti MarcoORCID,Resch Jon M.ORCID,Geerling Joel C.ORCID

Abstract

AbstractExcessive aldosterone production increases the risk of heart disease, stroke, dementia, and death. Aldosterone increases both sodium retention and sodium consumption, and increased sodium consumption predicts end-organ damage in patients with aldosteronism. Preventing this increase may improve outcomes, but the behavioral mechanisms of aldosterone-induced sodium appetite remain unclear. In rodents, we identified aldosterone-sensitive neurons, which express the mineralocorticoid receptor and its pre-receptor regulator, 11-beta-hydroxysteroid dehydrogenase 2 (HSD2). Here, we identify HSD2 neurons in the human brain and use a mouse model to evaluate their role in aldosterone-induced salt intake. First, we confirm that dietary sodium deprivation increases aldosterone production, HSD2 neuron activity, and salt intake. Next, we show that activating HSD2 neurons causes a large and specific increase in salt intake. Finally, we use dose-response studies and genetically targeted ablation of HSD2 neurons to show that aldosterone-induced salt intake requires these neurons. Identifying HSD2 neurons in the human brain and their necessity for aldosterone-induced salt intake in mice improves our understanding of appetitive circuits and highlights this small cell population as a therapeutic target for moderating dietary sodium.

Publisher

Cold Spring Harbor Laboratory

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