posted on 2014-02-10, 00:00authored byChristopher
M. Madl, Manav Mehta, Georg N. Duda, Sarah C. Heilshorn, David J. Mooney
Many strategies for controlling the
fate of transplanted stem cells
rely on the concurrent delivery of soluble growth factors that have
the potential to produce undesirable secondary effects in surrounding
tissue. Such off target effects could be eliminated by locally presenting
growth factor peptide mimics from biomaterial scaffolds to control
stem cell fate. Peptide mimics of bone morphogenetic protein 2 (BMP-2)
were synthesized by solid phase Fmoc-peptide synthesis and covalently
bound to alginate hydrogels via either carbodiimide or sulfhydryl-based
coupling strategies. Successful peptide conjugation was confirmed
by 1H NMR spectroscopy and quantified by fluorescently
labeling the peptides. Peptides derived from the knuckle epitope of
BMP-2, presented from both 2D surfaces and 3D alginate hydrogels,
were shown to increase alkaline phosphatase activity in clonally derived
murine osteoblasts. Furthermore, when presented in 3D hydrogels, these
peptides were shown to initiate Smad signaling, upregulate osteopontin
production, and increase mineral deposition with clonally derived
murine mesenchymal stem cells. These data suggest that these peptide-conjugated
hydrogels may be effective alternatives to local BMP-2 release in
directly and spatially eliciting osteogenesis from transplanted or
host osteoprogenitors in the future.