Bioadhesive Microporous Architectures by Self-Assembling Polydopamine Microcapsules for Biomedical Applications

Bioadhesive microporous architectures that mimic the functions of a natural extracellular matrix (ECM) were prepared by self-assembling polydopamine (PDA) microcapsules, which not only favor cell adhesion and growth, but also facilitate growth factor immobilization and release. PDA-coated polystyrene (PS) microspheres are synthesized by polymerization of dopamine on sulfonated PS microspheres and then assembled using positively charged chitosan (CHI) layers as link agents. After the PS core templates were removed, microporous architectures composed of PDA microcapsules were obtained. The produced microporous PDA architectures have a high capability of adsorbing BMP-2 and realize the sustained release of BMP-2. More importantly, the bioadhesive micro architecture and its immobilized BMP-2 synergistically enhance the activity and osteogenetic differentiation of bone marrow mesenchymal stem cells (BMSCs). Both supercell adhesion and BMP-2 immobilization ability of these architectures are attributed to the intrinsic adhesive nature of PDA and the porous architectures via the assembly of PDA microcapsules. The bioadhesive microporous PDA architectures with both cell affinitive and GF release features have a great potential to mimic natural ECM for modifying various medical devices in the fields of tissue engineering and regenerative medicine.