study of hbmsc adhesion and proliferation on rgd-modified polycaprolactone/gelatin nanofibrous scaffold

objective: in this study we introduced an rgd-containing peptide of collagen iv origin that possesses potent cell adhesion and proliferation properties. this peptide was immobilized on a nanofibrous polycaprolactone/gelatin scaffold after which we analyzed human bone marrow-derived mesenchymal stem cells (hbmscs) adhesion and proliferation on this peptide-modified scaffold. methods: nanofibrous scaffold was prepared by electrospinning. the peptide was synthesized by solid-phase peptide synthesis and immobilized on electrospun nanofibrous a polycaprolactone/gelatin scaffold by chemical bonding. native and modified scaffolds were characterized with scanning electron microscope (sem) and fourier-transform infra-red spectroscopy (ftir). adhesion and proliferation of hbmscs on native and modified scaffolds were analyzed by the methylthiazol tetrazolium (mtt) assay. results: sem images showed that electrospun scaffolds had homogenous morphology and were 312±89 nm in diameter. there was no significant difference in scaffold morphology before and after peptide immobilization. ftir results showed that the peptide was successfully immobilized on the scaffold. based on mtt assay, cell adhesion studies indicated that peptide immobilization improved cell adhesion on rgd-modified scaffolds at all corresponding time points (pconclusion: this novel peptide and modified nanofibrous scaffold, having improved cell adhesion and proliferation properties, can be used for tissue engineering and regenerative medicine by using hbmscs.