PTH-independent regulation of blood calcium concentration by the calcium-sensing receptor

Alexandre Loupy; Suresh Krishna Ramakrishnan; Bharath Wootla; Régine Chambrey; Renaud de la Faille; Soline Bourgeois; Patrick Bruneval; Chantal Mandet; Erik Christensen; Hélène Faure; Lydie Cheval; Kamel Laghmani; Corinne Collet; Dominique Eladari; Robert H. Dodd; Martial Ruat; Pascal Houillier

doi:10.1172/jci57407

PTH-independent regulation of blood calcium concentration by the calcium-sensing receptor

Alexandre Loupy(Inserm), Suresh Krishna Ramakrishnan(Centre de Recherche des Cordeliers), Bharath Wootla, Régine Chambrey(Paris Cardiovascular Research Center), Renaud de la Faille(Service de la Santé Publique), Soline Bourgeois(University of Zurich), Patrick Bruneval(Paris Cardiovascular Research Center), Chantal Mandet(Paris Cardiovascular Research Center), Erik Christensen(Aarhus University Hospital), Hélène Faure(Centre National de la Recherche Scientifique), Lydie Cheval(Centre National de la Recherche Scientifique), Kamel Laghmani(Délégation Paris 5), Corinne Collet(Hôpital Lariboisière), Dominique Eladari(Délégation Paris 5), Robert H. Dodd(Centre National de la Recherche Scientifique), Martial Ruat(Centre National de la Recherche Scientifique), Pascal Houillier(Délégation Paris 5)

Journal of Clinical Investigation

August 13, 2012

10.1172/jci57407

Cited by 201Open Access

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Abstract

Tight regulation of calcium levels is required for many critical biological functions. The Ca2+-sensing receptor (CaSR) expressed by parathyroid cells controls blood calcium concentration by regulating parathyroid hormone (PTH) secretion. However, CaSR is also expressed in other organs, such as the kidney, but the importance of extraparathyroid CaSR in calcium metabolism remains unknown. Here, we investigated the role of extraparathyroid CaSR using thyroparathyroidectomized, PTH-supplemented rats. Chronic inhibition of CaSR selectively increased renal tubular calcium absorption and blood calcium concentration independent of PTH secretion change and without altering intestinal calcium absorption. CaSR inhibition increased blood calcium concentration in animals pretreated with a bisphosphonate, indicating that the increase did not result from release of bone calcium. Kidney CaSR was expressed primarily in the thick ascending limb of the loop of Henle (TAL). As measured by in vitro microperfusion of cortical TAL, CaSR inhibitors increased calcium reabsorption and paracellular pathway permeability but did not change NaCl reabsorption. We conclude that CaSR is a direct determinant of blood calcium concentration, independent of PTH, and modulates renal tubular calcium transport in the TAL via the permeability of the paracellular pathway. These findings suggest that CaSR inhibitors may provide a new specific treatment for disorders related to impaired PTH secretion, such as primary hypoparathyroidism.

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