Abstract
Temperature-induced physical gelation was combined with native chemical ligation (NCL) as a chemical cross-linking mechanism to yield rapid network formation and mechanically strong hydrogels. To this end, a novel monomer N-(2-hydroxypropyl)methacrylamide-cysteine (HPMA-Cys) was synthesized that copolymerizes with N-isopropylacrylamide (NIPAAm) to yield thermoresponsive polymers decorated with cysteine functionalities. Triblock copolymers consisting of a poly(ethylene glycol) (PEG) middle block flanked by random blocks of NIPAAm and HPMA-Cys were successfully synthesized and characterized. Additionally, thioester cross-linkers were synthesized based on PEG and hyaluronic acid, respectively. Upon mixing the thermoresponsive polymer with PEG or hyaluronic acid cross-linker, cysteine and thioester functionalities react under physiological conditions to generate a native peptide bond. An immediate physical network was formed after elevation of the temperature to 37 °C due to the self-assembly of the pNIPAAm c...
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