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Showing 1–9 of 9 results
Advanced filters: Author: Wanida Ono Clear advanced filters

  • The alveolar bone supports the tooth’s lifelong functionality. Here, the authors identify a tooth-specific mechanism of bone formation in which the Hedgehog–Foxf pathway regulates the alveolar bone osteoblast fates of DF progenitor cells.

    • Mizuki Nagata
    • Gaurav T. Gadhvi
    • Wanida Ono
    ResearchOpen Access
    Nature Communications
    Volume: 16, P: 1-21

  • The tooth root is a critical component of the tooth. Here they identify root-forming CXCL12+ apical papilla progenitor cells that provide odontoblasts and cementoblasts in a Wnt-dependent manner, with plasticity to form alveolar bone osteoblasts during regeneration.

    • Mizuki Nagata
    • Gaurav T. Gadhvi
    • Wanida Ono
    ResearchOpen Access
    Nature Communications
    Volume: 16, P: 1-18

  • Bone marrow stromal cells (BMSCs) lining sinusoidal blood vessels are mesenchymal cells whose function is critical for the skeleton. Here the authors show that quiescent CXCL12-expressing BMSCs can convert into a skeletal stem cell-like state, and differentiate into cortical bone osteoblasts only in response to injury.

    • Yuki Matsushita
    • Mizuki Nagata
    • Noriaki Ono
    ResearchOpen Access
    Nature Communications
    Volume: 11, P: 1-17

  • How the parathyroid hormone-related protein receptor (PPR) and its ligand act in root formation and tooth eruption is unclear. Here, the authors identify osterix-expressing dental mesenchymal cells as progenitors for root formation and that PPR signalling mediates their differentiation and tooth eruption.

    • Wanida Ono
    • Naoko Sakagami
    • Henry M. Kronenberg
    ResearchOpen Access
    Nature Communications
    Volume: 7, P: 1-16

  • This study identified a new class of skeletal stem cells in the endosteal space of bone marrow, which are abundant in young bone marrow, express Fgfr3 with osteoblast-chondrocyte transitional identities and can turn into bone tumor-making cells.

    • Yuki Matsushita
    • Jialin Liu
    • Noriaki Ono
    ResearchOpen Access
    Nature Communications
    Volume: 14, P: 1-23

  • In endochondral bone development, bone-forming osteoblasts and bone marrow stromal cells have dual origins in the fetal cartilage and its surrounding perichondrium. Here they show that perichondrial cells are destined to become adipocyte-biased stromal cells, indicating that marrow stromal compartments are defined by their cells of origin.

    • Yuki Matsushita
    • Angel Ka Yan Chu
    • Noriaki Ono
    ResearchOpen Access
    Nature Communications
    Volume: 13, P: 1-17

  • Kronenberg and colleagues report that mesenchymal progenitor cells in endochondral bones express chondrocyte markers. By lineage tracing, they see that this population contributes to chondrocytes, osteoblasts and stromal cells in postnatal bones.

    • Noriaki Ono
    • Wanida Ono
    • Henry M. Kronenberg
    Research
    Nature Cell Biology
    Volume: 16, P: 1157-1167

  • In a mouse model, PTHrP-positive chondrocytes in the resting zone of the growth plate constitute a unique stem-cell population, which is initially unipotent and makes columnar chondrocytes that later exhibit multipotency.

    • Koji Mizuhashi
    • Wanida Ono
    • Noriaki Ono
    Research
    Nature
    Volume: 563, P: 254-258