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NFAT restricts osteochondroma formation from entheseal progenitors
Xianpeng Ge, Kelly Tsang, Lizhi He, Roberto A. Garcia, Joerg Ermann, Fumitaka Mizoguchi, Minjie Zhang, Bin Zhou, Bin Zhou, Antonios O. Aliprantis
Xianpeng Ge, Kelly Tsang, Lizhi He, Roberto A. Garcia, Joerg Ermann, Fumitaka Mizoguchi, Minjie Zhang, Bin Zhou, Bin Zhou, Antonios O. Aliprantis
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Research Article Bone biology

NFAT restricts osteochondroma formation from entheseal progenitors

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Abstract

Osteochondromas are common benign osteocartilaginous tumors in children and adolescents characterized by cartilage-capped bony projections on the surface of bones. These tumors often cause pain, deformity, fracture, and musculoskeletal dysfunction, and they occasionally undergo malignant transformation. The pathogenesis of osteochondromas remains poorly understood. Here, we demonstrate that nuclear factor of activated T cells c1 and c2 (NFATc1 and NFATc2) suppress osteochondromagenesis through individual and combinatorial mechanisms. In mice, conditional deletion of NFATc1 in mesenchymal limb progenitors, Scleraxis-expressing (Scx-expressing) tendoligamentous cells, or postnatally in Aggrecan-expressing cells resulted in osteochondroma formation at entheses, the insertion sites of ligaments and tendons onto bone. Combinatorial deletion of NFATc1 and NFATc2 gave rise to larger and more numerous osteochondromas in inverse proportion to gene dosage. A population of entheseal NFATc1- and Aggrecan-expressing cells was identified as the osteochondroma precursor, previously believed to be growth plate derived or perichondrium derived. Mechanistically, we show that NFATc1 restricts the proliferation and chondrogenesis of osteochondroma precursors. In contrast, NFATc2 preferentially inhibits chondrocyte hypertrophy and osteogenesis. Together, our findings identify and characterize a mechanism of osteochondroma formation and suggest that regulating NFAT activity is a new therapeutic approach for skeletal diseases characterized by defective or exaggerated osteochondral growth.

Authors

Xianpeng Ge, Kelly Tsang, Lizhi He, Roberto A. Garcia, Joerg Ermann, Fumitaka Mizoguchi, Minjie Zhang, Bin Zhou, Bin Zhou, Antonios O. Aliprantis

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Figure 8

Nuclear factor of activated T cells c1 and c2 (NFATc1 and NFATc2) differentially repress genes characterizing endochondral ossification and osteogenesis.

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Nuclear factor of activated T cells c1 and c2 (NFATc1 and NFATc2) differ...
(A and B) Expression of Col2a1, Col10a1, Mmp13, and Ibsp in ATDC5 cell lines with CRISP/Cas9-mediated deletion of Nfatc1 or Nfatc2 compared with Vector control after 2 weeks of micromass culture in chondrogenic media. (C and D) Expression of Col2a1, Col10a1, Mmp13, and Ibsp in GFP+ cells isolated from the tibial medial collateral ligament (MCL) entheses of AggCreER;mTmG, Nfatc1-KO;mTmG, and Nfatc2-KO;mTmG mice and cultured for 1 week ex vivo. (E and F) Expression of Tnsalp, Col1a1, Comp, and Bglap in the GFP+ cells from AggCreER;mTmG, Nfatc1-KO;mTmG, and Nfatc2-KO;mTmG mice. Gene expression was measured by real-time PCR using hypoxanthine phosphoribosyltransferase (Hprt) for normalization. n = 3 per sample. Results are representative of 5 (A and B) or 3 (C–F) independent experiments. P values were determined by 1-way ANOVA followed by Tukey’s tests for multiple comparisons.

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