NFATc1 in mice represses osteoprotegerin during osteoclastogenesis and dissociates systemic osteopenia from inflammation in cherubism
Antonios O. Aliprantis, … , Bjorn R. Olsen, Laurie H. Glimcher
Antonios O. Aliprantis, … , Bjorn R. Olsen, Laurie H. Glimcher
Published October 9, 2008
Citation Information: J Clin Invest. 2008;118(11):3775-3789. https://doi.org/10.1172/JCI35711.
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NFATc1 in mice represses osteoprotegerin during osteoclastogenesis and dissociates systemic osteopenia from inflammation in cherubism

Abstract

Osteoporosis results from an imbalance in skeletal remodeling that favors bone resorption over bone formation. Bone matrix is degraded by osteoclasts, which differentiate from myeloid precursors in response to the cytokine RANKL. To gain insight into the transcriptional regulation of bone resorption during growth and disease, we generated a conditional knockout of the transcription factor nuclear factor of activated T cells c1 (Nfatc1). Deletion of Nfatc1 in young mice resulted in osteopetrosis and inhibition of osteoclastogenesis in vivo and in vitro. Transcriptional profiling revealed NFATc1 as a master regulator of the osteoclast transcriptome, promoting the expression of numerous genes needed for bone resorption. In addition, NFATc1 directly repressed osteoclast progenitor expression of osteoprotegerin, a decoy receptor for RANKL previously thought to be an osteoblast-derived inhibitor of bone resorption. “Cherubism mice”, which carry a gain-of-function mutation in SH3-domain binding protein 2 (Sh3bp2), develop osteoporosis and widespread inflammation dependent on the proinflammatory cytokine, TNF-α. Interestingly, deletion of Nfatc1 protected cherubism mice from systemic bone loss but did not inhibit inflammation. Taken together, our study demonstrates that NFATc1 is required for remodeling of the growing and adult skeleton and suggests that NFATc1 may be an effective therapeutic target for osteoporosis associated with inflammatory states.

Authors

Antonios O. Aliprantis, Yasuyoshi Ueki, Rosalyn Sulyanto, Arnold Park, Kirsten S. Sigrist, Sudarshana M. Sharma, Michael C. Ostrowski, Bjorn R. Olsen, Laurie H. Glimcher

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Figure 3

Nfatc1Δ/Δ mice display impaired osteoclast differentiation in vivo and in vitro.

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Nfatc1Δ/Δ mice display impaired osteoclast differentiation in vivo and ...
(A) TRAP stain of the femoral growth plates of 9-week-old male Nfatc1fl/fl and Nfatc1Δ/Δ mice. Images are representative of at least 8 mice analyzed per genotype. (B) Histomorphometric enumeration of osteoclasts within the femoral epiphysis of 5-month-old female Nfatc1fl/fl and Nfatc1Δ/Δ mice (n = 4/genotype). The data is the mean + SD. NOc/BS, number of osteoclasts per mm bone surface; NOc/BAr, number of osteoclasts per mm2 bone area. P < 0.05 for both panels. (C) TRAP5b levels in the serum of 10- to 20-week-old female Nfatc1fl/fl and Nfatc1Δ/Δ mice (n = 8/genotype); P < 0.05. (D) TRAP stain and (E) TRAP assay of Nfatc1fl/fl and Nfatc1Δ/Δ M-CSF–primed BM cells cultured with osteoblasts (Obs) and Vitamin D3 (E) or Vitamin D3 and PGE2 (D and E). The data in E are the mean + SD of triplicate wells and representative of 2 independent experiments. (F) TRAP stain of Nfatc1fl/fl and Nfatc1Δ/Δ M-CSF–primed BM cells cultured with M-CSF or M-CSF and RANKL. (G) c-kit versus c-fms FACS plot of Nfatc1fl/fl and Nfatc1Δ/Δ BM cells gated on the CD11blo/–B220CD3ε population. (H) Quantification of osteoclast precursors in the BM of Nfatc1fl/fl and Nfatc1Δ/Δ mice. The data is the mean + SD (n = 5/genotype). (I) TRAP assay and (J) TRAP stain of Nfatc1fl/fl and Nfatc1Δ/Δ BMOcPs cultured with M-CSF or M-CSF and RANKL. The data in I is the mean + SD of triplicate wells and representative of more than 3 independent experiments. Original magnification, ×400 (A); ×100 (D, F, and J).