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Usage Information

A ryanodine receptor-like molecule expressed in the osteoclast plasma membrane functions in extracellular Ca2+ sensing.
M Zaidi, V S Shankar, R Tunwell, O A Adebanjo, J Mackrill, M Pazianas, D O'Connell, B J Simon, B R Rifkin, A R Venkitaraman
M Zaidi, V S Shankar, R Tunwell, O A Adebanjo, J Mackrill, M Pazianas, D O'Connell, B J Simon, B R Rifkin, A R Venkitaraman
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Research Article

A ryanodine receptor-like molecule expressed in the osteoclast plasma membrane functions in extracellular Ca2+ sensing.

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Abstract

Ryanodine receptors (RyRs) reside in microsomal membranes where they gate Ca2+ release in response to changes in the cytosolic Ca2+ concentration. In the osteoclast, a divalent cation sensor, the Ca2+ receptor (CaR), located within the cell's plasma membrane, monitors changes in the extracellular Ca2+ concentration. Here we show that a RyR-like molecule is a functional component of this receptor. We have demonstrated that [3H] ryanodine specifically binds to freshly isolated rat osteoclasts. The binding was displaced by ryanodine itself, the CaR agonist Ni2+ and the RyR antagonist ruthenium red. The latter also inhibited cytosolic Ca2+ elevations induced by Ni2+. In contrast, the responses to Ni2+ were strongly potentiated by an antiserum Ab129 raised to an epitope located within the channel-forming domain of the type II RyR. The antiserum also stained the surface of intact, unfixed, trypan blue-negative osteoclasts. Serial confocal sections and immunogold scanning electron microscopy confirmed a plasma membrane localization of this staining. Antiserum Ab34 directed to a putatively intracellular RyR epitope expectedly did not stain live osteoclasts nor did it potentiate CaR activation. It did, however, stain fixed, permeabilized cells in a distinctive cytoplasmic pattern. We conclude that an RyR-like molecule resides within the osteoclast plasma membrane and plays in important role in extracellular Ca2+ sensing.

Authors

M Zaidi, V S Shankar, R Tunwell, O A Adebanjo, J Mackrill, M Pazianas, D O'Connell, B J Simon, B R Rifkin, A R Venkitaraman

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Usage data is cumulative from July 2025 through July 2026.

Usage JCI PMC
Text version 397 17
PDF 132 8
Scanned page 786 0
Citation downloads 169 0
Totals 1,484 25
Total Views 1,509
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ISSN: 0021-9738 (print), 1558-8238 (online)

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