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Angiogenesis is uncoupled from osteogenesis during calvarial bone regeneration

Author

Listed:
  • M. Gabriele Bixel

    (Faculty of Medicine)

  • Kishor K. Sivaraj

    (Faculty of Medicine)

  • Melanie Timmen

    (University Hospital Münster)

  • Vishal Mohanakrishnan

    (Faculty of Medicine)

  • Anusha Aravamudhan

    (Faculty of Medicine)

  • Susanne Adams

    (Faculty of Medicine)

  • Bong-Ihn Koh

    (Faculty of Medicine)

  • Hyun-Woo Jeong

    (Faculty of Medicine
    Sequencing Core Facility)

  • Kai Kruse

    (Faculty of Medicine
    Bioinformatics Service Unit)

  • Richard Stange

    (University Hospital Münster)

  • Ralf H. Adams

    (Faculty of Medicine)

Abstract

Bone regeneration requires a well-orchestrated cellular and molecular response including robust vascularization and recruitment of mesenchymal and osteogenic cells. In femoral fractures, angiogenesis and osteogenesis are closely coupled during the complex healing process. Here, we show with advanced longitudinal intravital multiphoton microscopy that early vascular sprouting is not directly coupled to osteoprogenitor invasion during calvarial bone regeneration. Early osteoprogenitors emerging from the periosteum give rise to bone-forming osteoblasts at the injured calvarial bone edge. Microvessels growing inside the lesions are not associated with osteoprogenitors. Subsequently, osteogenic cells collectively invade the vascularized and perfused lesion as a multicellular layer, thereby advancing regenerative ossification. Vascular sprouting and remodeling result in dynamic blood flow alterations to accommodate the growing bone. Single cell profiling of injured calvarial bones demonstrates mesenchymal stromal cell heterogeneity comparable to femoral fractures with increase in cell types promoting bone regeneration. Expression of angiogenesis and hypoxia-related genes are slightly elevated reflecting ossification of a vascularized lesion site. Endothelial Notch and VEGF signaling alter vascular growth in calvarial bone repair without affecting the ossification progress. Our findings may have clinical implications for bone regeneration and bioengineering approaches.

Suggested Citation

  • M. Gabriele Bixel & Kishor K. Sivaraj & Melanie Timmen & Vishal Mohanakrishnan & Anusha Aravamudhan & Susanne Adams & Bong-Ihn Koh & Hyun-Woo Jeong & Kai Kruse & Richard Stange & Ralf H. Adams, 2024. "Angiogenesis is uncoupled from osteogenesis during calvarial bone regeneration," Nature Communications, Nature, vol. 15(1), pages 1-22, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-48579-5
    DOI: 10.1038/s41467-024-48579-5
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