Identification of Postn+ periosteal progenitor cells with bone regenerative potential
Bei Yin, Fangyuan Shen, Qingge Ma, Yongcheng Liu, Xianglong Han, Xuyu Cai, Yu Shi, Ling Ye
Bei Yin, Fangyuan Shen, Qingge Ma, Yongcheng Liu, Xianglong Han, Xuyu Cai, Yu Shi, Ling Ye
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Research Article Bone biology

Identification of Postn+ periosteal progenitor cells with bone regenerative potential

Abstract

Bone contains multiple pools of skeletal stem/progenitor cells (SSPCs), and SSPCs in periosteal compartments are known to exhibit higher regenerative potential than those in BM and endosteal compartments. However, the in vivo identity and hierarchical relationships of periosteal SSPCs (P-SSPCs) remain unclear due to a lack of reliable markers to distinguish BM SSPCs and P-SSPCs. Here, we found that periosteal mesenchymal progenitor cells (P-MPs) in periosteum can be identified based on Postn-CreERT2 expression. Postn-expressing periosteal subpopulation produces osteolineage descendants that fuel bones to maintain homeostasis and support regeneration. Notably, Postn+ P-MPs are likely derived from Gli1+ skeletal stem cells (SSCs). Ablation of Postn+ cells results in impairments in homeostatic cortical bone architecture and defects in fracture repair. Genetic deletion of Igf1r in Postn+ cells dampens bone fracture healing. In summary, our study provides a mechanistic understanding of bone regeneration through the regulation of region-specific Postn+ P-MPs.

Authors

Bei Yin, Fangyuan Shen, Qingge Ma, Yongcheng Liu, Xianglong Han, Xuyu Cai, Yu Shi, Ling Ye

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Figure 5

Postn+ cells could be reactivated in a successive bone fracture.

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Postn+ cells could be reactivated in a successive bone fracture. (A–D) ...
(AD) Distribution of tdTomato+ cells (A) and immunofluorescence staining of OSX (Sp7) (B), ACAN (C), and POSTN (D) in day 10 callus of second fracture in Postn-CreERT2; tdTomato mice. Tamoxifen was injected for 3 consecutive days starting from the fracture day. A second fracture was performed 1 month after first one, and day 10 callus of the second fracture was examined. (E) The graph showed the ratio of tdTomato+ cells in POSTN+, OSX+, and ACAN+ cells. (F) Immunofluorescence staining of Ki67 in day 10 callus of second fracture in Postn-CreERT2; tdTomato mice. Data were obtained from 3 independent experiments. Data are presented as mean ± SD. n = 3 per genotype. Blue scale bar: 500 μm. Red scale bar: 200 μm. White scale bar: 20 μm. F, fibrous layer; C, cambium layer; B, cortical bone; Ca, callus. See also Supplemental Figure 5.