Pablo Ureña1, João M Frazão. 1. Service de Néphrologie et Dialyse, Clinique de l'Orangerie, Aubervilliers, France. purenat@fr.inter.net
Abstract
BACKGROUND: Recognition of the role of the extracellular calcium-sensing receptor (CaR) in mineral metabolism has greatly improved our understanding of calcium homeostasis. The activation of this receptor by small changes in the extracellular ionized calcium (ec(Ca2+)) regulates PTH, calcitonin secretion, urinary calcium excretion, and, ultimately, bone turnover. METHODS: The cloning of the CaR and the discovery of mutations that make the receptor less or more sensitive to calcium have allowed a better understanding of several hereditary disorders characterized by either hyperparathyroidism or hypoparathyroidism. The CaR, able to amplify the sensitivity of the CaR to Ca++ and suppress PTH levels with a resulting decrease in blood Ca++, became an ideal target for the development of compounds, the calcimimetics. Experience with the calcimimetic R-568 in patients with primary and secondary hyperparathyroidism and parathyroid carcinoma are summarized. RESULTS: The first clinical studies with the first-generation calcimimetic agents have demonstrated their efficacy in lowering plasma intact PTH concentration in uremic patients with secondary hyperparathyroidism. However, the low bioavailability of these first calcimimetics predicts a difficult clinical utilization. The second-generation calcimimetic, AMG 073, having a better pharmacokinetic profile, appears to be effective and safe for the treatment of secondary hyperparathyroidism, suppressing PTH levels while simultaneously reducing serum phosphorus levels and the calcium x phosphorus product. CONCLUSION: The advantage of controlling PTH secretion without the complications related to hypercalcemia, hyperphosphatemia, and increased calcium x phosphorus product is very promising.
BACKGROUND: Recognition of the role of the extracellular calcium-sensing receptor (CaR) in mineral metabolism has greatly improved our understanding of calcium homeostasis. The activation of this receptor by small changes in the extracellular ionizedcalcium (ec(Ca2+)) regulates PTH, calcitonin secretion, urinary calcium excretion, and, ultimately, bone turnover. METHODS: The cloning of the CaR and the discovery of mutations that make the receptor less or more sensitive to calcium have allowed a better understanding of several hereditary disorders characterized by either hyperparathyroidism or hypoparathyroidism. The CaR, able to amplify the sensitivity of the CaR to Ca++ and suppress PTH levels with a resulting decrease in blood Ca++, became an ideal target for the development of compounds, the calcimimetics. Experience with the calcimimetic R-568 in patients with primary and secondary hyperparathyroidism and parathyroid carcinoma are summarized. RESULTS: The first clinical studies with the first-generation calcimimetic agents have demonstrated their efficacy in lowering plasma intact PTH concentration in uremic patients with secondary hyperparathyroidism. However, the low bioavailability of these first calcimimetics predicts a difficult clinical utilization. The second-generation calcimimetic, AMG 073, having a better pharmacokinetic profile, appears to be effective and safe for the treatment of secondary hyperparathyroidism, suppressing PTH levels while simultaneously reducing serum phosphorus levels and the calcium x phosphorus product. CONCLUSION: The advantage of controlling PTH secretion without the complications related to hypercalcemia, hyperphosphatemia, and increased calcium x phosphorus product is very promising.
Authors: Jacques Rottembourg; Pablo Ureña-Torres; Daniel Toledano; Victor Gueutin; Abdelaziz Hamani; Olivier Coldefy; Hedia Hebibi; Thomas Guincestre; Corinne Emery Journal: Clin Kidney J Date: 2019-03-18