Synthesis of Functionalized Triblock Copolyesters Derived from Lactic Acid and Macrolactones for Bone Tissue Regeneration

Abstract

AbstractSynthetic and functional grafts are a great alternative to conventional grafts. They can provide a physical support and the precise signaling for cells to heal damaged tissues. In this study, a novel RGD peptide end‐functionalized poly(ethylene glycol)‐b‐poly(lactic acid)‐b‐poly(globalide)‐b‐poly(lactic acid)‐b‐poly(ethylene glycol) (RGD‐PEG‐PLA‐PGl‐PLA‐PEG‐RGD) is synthetized and used to prepare functional scaffolds. The PGl inner block is obtained by enzymatic ring‐opening polymerization of globalide. The outer PLA blocks are obtained by ring‐opening polymerization of both, l‐lactide or a racemic mixture, initiated by the α‐ω‐telechelic polymacrolactone. The presence of PGl inner block enhances the toughness of PLA‐based scaffolds, with an increase of the elongation at break up to 300% when the longer block of PGl is used. PLA‐PGl‐PLA copolymer is coupled with α‐ω‐telechelic PEG diacids by esterification reaction. PEGylation provides hydrophilic scaffolds as the contact angle is reduced from 114° to 74.8°. That difference improves the contact between the scaffolds and the culture media. Moreover, the scaffolds are functionalized with RGD peptides at the surface significantly enhancing the adhesion and proliferation of bone marrow‐derived primary mesenchymal stem cells and MC3T3‐E1 cell lines in vitro. These results place this multifunctional polymer as a great candidate for the preparation of temporary grafts.