Activation of the calcium-sensing receptor attenuates TRPV6-dependent intestinal calcium absorption
Justin J. Lee, … , Henrik Dimke, R. Todd Alexander
Justin J. Lee, … , Henrik Dimke, R. Todd Alexander
Published April 23, 2019
Citation Information: JCI Insight. 2019;4(11):e128013. https://doi.org/10.1172/jci.insight.128013.
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Research Article Gastroenterology Nephrology

Activation of the calcium-sensing receptor attenuates TRPV6-dependent intestinal calcium absorption

Abstract

Plasma calcium (Ca2+) is maintained by amending the release of parathyroid hormone and through direct effects of the Ca2+-sensing receptor (CaSR) in the renal tubule. Combined, these mechanisms alter intestinal Ca2+ absorption by modulating 1,25-dihydroxyvitamin D3 production, bone resorption, and renal Ca2+ excretion. The CaSR is a therapeutic target in the treatment of secondary hyperparathyroidism and hypocalcemia, a common complication of calcimimetic therapy. The CaSR is also expressed in intestinal epithelium; however, a direct role in regulating local intestinal Ca2+ absorption is unknown. Chronic CaSR activation decreased expression of genes involved in Ca2+ absorption. In Ussing chambers, increasing extracellular Ca2+ or basolateral application of the calcimimetic cinacalcet decreased net Ca2+ absorption across intestinal preparations acutely. Conversely, Ca2+ absorption increased with decreasing extracellular Ca2+ concentration. These responses were absent in mice expressing a nonfunctional TRPV6, TRPV6D541A. Cinacalcet also attenuated Ca2+ fluxes through TRPV6 in Xenopus oocytes when coexpressed with the CaSR. Moreover, the phospholipase C inhibitor U73122 prevented cinacalcet-mediated inhibition of Ca2+ flux. These results reveal a regulatory pathway whereby activation of the CaSR in the basolateral membrane of the intestine directly attenuates local Ca2+ absorption via TRPV6 to prevent hypercalcemia and help explain how calcimimetics induce hypocalcemia.

Authors

Justin J. Lee, Xiong Liu, Debbie O’Neill, Megan R. Beggs, Petra Weissgerber, Veit Flockerzi, Xing-Zhen Chen, Henrik Dimke, R. Todd Alexander

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Figure 2

Protocol used to measure unidirectional Ca2+ fluxes across intestinal preparations.

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Protocol used to measure unidirectional Ca2+ fluxes across intestinal pr...
The transepithelial voltage across tissue preparations (y axis) was clamped to 0 mV for the duration of the experiment (x axis). The voltage spikes along the x axis correspond to 2-mV pulses applied and used to determine the transepithelial resistance (TER). We added 0.1 μM tetrodotoxin (TTX) basolaterally first and allowed the resulting short-circuit current to stabilize. At time 0, the solutions were exchanged for fresh ones with 1 side spiked with 45Ca2+. Asterisks indicate the time points when samples were taken for radioactivity measurements. Two gray horizontal lines represent 15-minute time intervals, where unidirectional 45Ca2+ flux was calculated for each condition. We added 10 μM forskolin at the end of the experiment to confirm tissue viability.