Abstract
Drug-loaded nanoparticles have been widely used in the field of tumor treatment due to their low side effects and reduced frequency of administration. In this study, keratin-dopamine conjugate was first synthesized by amidation reaction and then formed nanoparticles by self-polymerization of dopamine segment. Keratin-dopamine conjugate nanoparticles (KNPs) exhibited pH and glutathione (GSH) dual responsiveness in the simulated tumor environment. These nanoparticles were able to load anti-cancer drug doxorubicin (DOX) through electrostatic interactions and hydrogen bonds. These drug-loaded KNPs (DKNPs) exhibited controlled drug release in a tumor simulation environment. Meanwhile, DKNPs performed a stronger inhibitory effect on tumor cells compared with human normal tissue cells. Based on the above results, keratin-dopamine conjugate based drug carriers had a broad prospect in the field of cancer treatment.