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Gli1 identifies osteogenic progenitors for bone formation and fracture repair

Author

Listed:
  • Yu Shi

    (Washington University School of Medicine)

  • Guangxu He

    (Washington University School of Medicine
    Central South University)

  • Wen-Chih Lee

    (Washington University School of Medicine)

  • Jennifer A. McKenzie

    (Washington University School of Medicine)

  • Matthew J. Silva

    (Washington University School of Medicine)

  • Fanxin Long

    (Washington University School of Medicine
    Washington University School of Medicine)

Abstract

Bone formation in mammals requires continuous production of osteoblasts throughout life. A common molecular marker for all osteogenic mesenchymal progenitors has not been identified. Here, by lineage-tracing experiments in fetal or postnatal mice, we discover that Gli1+ cells progressively produce osteoblasts in all skeletal sites. Most notably, in postnatal growing mice, the Gli1+ cells residing immediately beneath the growth plate, termed here “metaphyseal mesenchymal progenitors” (MMPs), are essential for cancellous bone formation. Besides osteoblasts, MMPs also give rise to bone marrow adipocytes and stromal cells in vivo. RNA-seq reveals that MMPs express a number of marker genes previously assigned to mesenchymal stem/progenitor cells, including CD146/Mcam, CD44, CD106/Vcam1, Pdgfra, and Lepr. Genetic disruption of Hh signaling impairs proliferation and osteoblast differentiation of MMPs. Removal of β-catenin causes MMPs to favor adipogenesis, resulting in osteopenia coupled with increased marrow adiposity. Finally, postnatal Gli1+ cells contribute to both chondrocytes and osteoblasts during bone fracture healing. Thus Gli1 marks mesenchymal progenitors responsible for both normal bone formation and fracture repair.

Suggested Citation

  • Yu Shi & Guangxu He & Wen-Chih Lee & Jennifer A. McKenzie & Matthew J. Silva & Fanxin Long, 2017. "Gli1 identifies osteogenic progenitors for bone formation and fracture repair," Nature Communications, Nature, vol. 8(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-02171-2
    DOI: 10.1038/s41467-017-02171-2
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    Cited by:

    1. Alexandra N. Rindone & Xiaonan Liu & Stephanie Farhat & Alexander Perdomo-Pantoja & Timothy F. Witham & Daniel L. Coutu & Mei Wan & Warren L. Grayson, 2021. "Quantitative 3D imaging of the cranial microvascular environment at single-cell resolution," Nature Communications, Nature, vol. 12(1), pages 1-13, December.

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