Engineering vascularized bone: Osteogenic and proangiogenic potential of murine periosteal cells

van Gastel, Nick;Torrekens, Sophie;Roberts, Scott J;Moermans, Karen;Carmeliet, Geert;et.al.
(2012) Stem Cells : the international journal of cell differentiation and proliferation — Vol. 30, n° 11, p. 2460-2471 (2012)

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Authors
  • Author
  • Torrekens, Sophie
    Author
  • Roberts, Scott J
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  • Moermans, Karen
    Author
  • Carmeliet, Geert
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Abstract
One of the key challenges in bone tissue engineering is the timely formation of blood vessels that promote the survival of the implanted cells in the construct. Fracture healing largely depends on the presence of an intact periosteum but it is still unknown whether periosteum-derived cells (PDC) are critical for bone repair only by promoting bone formation or also by inducing neovascularization. We first established a protocol to specifically isolate murine PDC (mPDC) from long bones of adult mice. Mesenchymal stem cells were abundantly present in this cell population as more than 50% of the mPDC expressed mesenchymal markers (CD73, CD90, CD105, and stem cell antigen-1) and the cells exhibited trilineage differentiation potential (chondrogenic, osteogenic, and adipogenic). When transplanted on a collagen-calcium phosphate scaffold in vivo, mPDC attracted numerous blood vessels and formed mature bone which comprises a hematopoiesis-supportive stroma. We explored the proangiogenic properties of mPDC using in vitro culture systems and showed that mPDC promote the survival and proliferation of endothelial cells through the production of vascular endothelial growth factor. Coimplantation with endothelial cells demonstrated that mPDC can enhance vasculogenesis by adapting a pericyte-like phenotype, in addition to their ability to stimulate blood vessel ingrowth from the host. In conclusion, these findings demonstrate that periosteal cells contribute to fracture repair, not only through their strong osteogenic potential but also through their proangiogenic features and thus provide an ideal cell source for bone regeneration therapies.
Affiliations
  • KU LeuvenLaboratory of Clinical and Experimental Endocrinology
  • KU LeuvenPrometheus, Division of Skeletal Tissue Engineering

Citations

van Gastel, N., Torrekens, S., Roberts, S. J., Moermans, K., Schrooten, J., Carmeliet, P., Luttun, A., Luyten, F. P., & Carmeliet, G. (2012). Engineering vascularized bone: Osteogenic and proangiogenic potential of murine periosteal cells. Stem Cells : the international journal of cell differentiation and proliferation, 30(11), 2460-2471. https://doi.org/10.1002/stem.1210 (Original work published 2012)