SIKs control osteocyte responses to parathyroid hormone

Marc N. Wein; Yanke Liang; Olga Göransson; Thomas B. Sundberg; Jinhua Wang; Elizabeth A. Williams; Maureen J. O’Meara; Nicolas Govea; Belinda Beqo; Shigeki Nishimori; Kenichi Nagano; Daniel J. Brooks; Janaina S. Martins; Braden Corbin; Anthony Anselmo; Ruslan I. Sadreyev; Joy Y. Wu; Kei Sakamoto; Marc Foretz; Ramnik J. Xavier; Roland Baron; Mary Bouxsein; Thomas J. Gardella; Paola Divieti-Pajevic; Nathanael S. Gray; Henry M. Kronenberg

doi:10.1038/ncomms13176

SIKs control osteocyte responses to parathyroid hormone

Marc N. Wein(Harvard University), Yanke Liang(Harvard University), Olga Göransson(Lund University), Thomas B. Sundberg(Broad Institute), Jinhua Wang(Harvard University), Elizabeth A. Williams(Harvard University), Maureen J. O’Meara(Harvard University), Nicolas Govea(Harvard University), Belinda Beqo(Harvard University), Shigeki Nishimori(Harvard University), Kenichi Nagano(Harvard University), Daniel J. Brooks(Beth Israel Deaconess Medical Center), Janaina S. Martins(Harvard University), Braden Corbin(Harvard University), Anthony Anselmo(Harvard University), Ruslan I. Sadreyev(Harvard University), Joy Y. Wu(Stanford University), Kei Sakamoto(University of Dundee), Marc Foretz(Délégation Paris 5), Ramnik J. Xavier(Broad Institute), Roland Baron(Harvard University), Mary Bouxsein(Beth Israel Deaconess Medical Center), Thomas J. Gardella(Harvard University), Paola Divieti-Pajevic(Boston University), Nathanael S. Gray(Harvard University), Henry M. Kronenberg(Harvard University)

Nature Communications

October 19, 2016

10.1038/ncomms13176

Cited by 164Open Access

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Abstract

Parathyroid hormone (PTH) activates receptors on osteocytes to orchestrate bone formation and resorption. Here we show that PTH inhibition of SOST (sclerostin), a WNT antagonist, requires HDAC4 and HDAC5, whereas PTH stimulation of RANKL, a stimulator of bone resorption, requires CRTC2. Salt inducible kinases (SIKs) control subcellular localization of HDAC4/5 and CRTC2. PTH regulates both HDAC4/5 and CRTC2 localization via phosphorylation and inhibition of SIK2. Like PTH, new small molecule SIK inhibitors cause decreased phosphorylation and increased nuclear translocation of HDAC4/5 and CRTC2. SIK inhibition mimics many of the effects of PTH in osteocytes as assessed by RNA-seq in cultured osteocytes and following in vivo administration. Once daily treatment with the small molecule SIK inhibitor YKL-05-099 increases bone formation and bone mass. Therefore, a major arm of PTH signalling in osteocytes involves SIK inhibition, and small molecule SIK inhibitors may be applied therapeutically to mimic skeletal effects of PTH.

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