Tendon-derived cathepsin K–expressing progenitor cells activate Hedgehog signaling to drive heterotopic ossification
Heng Feng, … , Qing Bi, Weiguo Zou
Heng Feng, … , Qing Bi, Weiguo Zou
Published August 27, 2020
Citation Information: J Clin Invest. 2020;130(12):6354-6365. https://doi.org/10.1172/JCI132518.
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Research Article

Tendon-derived cathepsin K–expressing progenitor cells activate Hedgehog signaling to drive heterotopic ossification

Abstract

Heterotopic ossification (HO) is pathological bone formation characterized by ossification within muscle, tendons, or other soft tissues. However, the cells of origin and mechanisms involved in the pathogenesis of HO remain elusive. Here we show that deletion of suppressor of fused (Sufu) in cathepsin K–Cre–expressing (Ctsk-Cre–expressing) cells resulted in spontaneous and progressive ligament, tendon, and periarticular ossification. Lineage tracing studies and cell functional analysis demonstrated that Ctsk-Cre could label a subpopulation of tendon-derived progenitor cells (TDPCs) marked by the tendon marker Scleraxis (Scx). Ctsk+Scx+ TDPCs are enriched for tendon stem cell markers and show the highest self-renewal capacity and differentiation potential. Sufu deficiency caused enhanced chondrogenic and osteogenic differentiation of Ctsk-Cre–expressing tendon-derived cells via upregulation of Hedgehog (Hh) signaling. Furthermore, pharmacological intervention in Hh signaling using JQ1 suppressed the development of HO. Thus, our results show that Ctsk-Cre labels a subpopulation of TDPCs contributing to HO and that their cell-fate changes are driven by activation of Hh signaling.

Authors

Heng Feng, Wenhui Xing, Yujiao Han, Jun Sun, Mingxiang Kong, Bo Gao, Yang Yang, Zi Yin, Xiao Chen, Yun Zhao, Qing Bi, Weiguo Zou

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Figure 4

Sufu-deficient tendon-derived cells exhibit enhanced chondrogenic and osteogenic differentiation.

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Sufu-deficient tendon-derived cells exhibit enhanced chondrogenic and o...
(A) Chondrogenic differentiation of high-density sorted Achilles tendon cells from 4-week-old Ctsk-CKO Rosa26-Ai9 mice and Ctsk-Ctrl Rosa26-Ai9 mice cultured in chondrogenic medium was assessed by Alcian blue staining at day 10 (n = 4). (B) qRT-PCR analysis of gene markers of chondrogenesis. (C) Osteogenic differentiation analysis of Sufu-deficient tendon-derived cells and control cells by ALP staining (1 week) and alizarin red S staining (2 weeks) (n = 5). Insets represent the fluorescence signals of cells after differentiation. (D) Quantification of ALP activity relative to cell numbers. n = 5 per group. (E and F) Osteogenic differentiation of sorted Achilles tendon cells from 4-week-old Ctsk-CKO Rosa26-Ai9 mice and Ctsk-Ctrl Rosa26-Ai9 mice. Gene expression analysis of markers of Hh signaling and osteogenesis by qRT-PCR. (G) TUNEL assays revealed apoptosis of the Achilles tendon from 4-week-old Ctsk-CKO Rosa26-Ai9 mice and control mice. n = 3 per group. DNase I was used as positive control. Scale bars: 50 μm. Results are presented as the mean ± SEM; unpaired t test, **P < 0.01, ***P < 0.001.