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Regulation of extracellular calcium sensing in rat osteoclasts by femtomolar calcitonin concentrations

Abstract:
Certain eukaryotic cells can sense changes in their extracellular Ca2+ concentration through molecular structures termed Ca2+sensing receptors (CaRs). We have shown recently that in the bone-resorbing osteoclast, a unique cell surface-expressed ryanodine receptor (RyR), functions as the CaR. The present study demonstrates that the sensitivity of this receptor is modulated by physiological femtomolar concentrations of the bone-conserving hormone, calcitonin. Calcitonin was found to inhibit cytosolic Ca2+ responses to both Ca2+ and Ni2+. The latter inhibition was mimicked by amylin (10-12 M), calcitonin gene-related peptide (10-12 M), cholera toxin (5 μg/l), and dibutyryl adenosine 3′, 5′-cyclicmonophosphate (cAMP) (2.5 × 10-4 or 5 × 10-4 M) and was reversed by the protein kinase A phosphorylation inhibitor, IP-20. Finally, using a quench flow module, we showed that cellular cAMP levels rise to a peak within 25 ms of calcitonin application; this is consistent with the peptide's rapid effect on CaR activation. We conclude, therefore, that cAMP plays a critical role in the control of CaR function by calcitonin. calcium ion channel; bone resorption; osteoporosis; ryanodine receptor.

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Institution:
University of Oxford
Division:
MSD
Department:
NDORMS
Role:
Author


Journal:
American Journal of Physiology More from this journal
Volume:
271
Issue:
3 PART 2
Publication date:
1996-01-01
ISSN:
0002-9513


Language:
English
Pubs id:
pubs:475731
UUID:
uuid:f55affc2-bdba-4b7c-9908-292fc1e3396a
Local pid:
pubs:475731
Source identifiers:
475731
Deposit date:
2014-07-14
ARK identifier:

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