Phenylboronic Acid-Based Complex Micelles with Enhanced Glucose-Responsiveness at Physiological pH by Complexation with Glycopolymer
Citations Over TimeTop 10% of 2012 papers
Abstract
Polymeric nanoparticles with glucose-responsiveness under physiological conditions are of great interests in developing drug delivery system for the treatment of diabetes. Herein, glucose-responsive complex micelles were prepared by self-assembly of a phenylboronic acid-contained block copolymer PEG-b-P(AA-co-APBA) and a glycopolymer P(AA-co-AGA) based on the covalent complexation between phenylboronic acid and glycosyl. The formation of the complex micelles with a P(AA-co-APBA)/P(AA-co-AGA) core and a PEG shell was confirmed by HNMR analysis. The glucose-responsiveness of the complex micelles was investigated by monitoring the light scattering intensity and the fluorescence (ARS) of the micelle solutions. The complex micelles displayed an enhanced glucose-responsiveness compared to the simple PEG-b-P(AA-co-APBA) micelles and the sensitivity of the complex micelles to glucose increased with the decrease of the amount of P(AA-co-AGA) in the compositions. The cytotoxicity of the polymers and the complex micelles was also evaluated by MTT assay. This kind of complex micelles may be an excellent candidate for insulin delivery and may find application in the treatment of diabetes.
Related Papers
- → Polymeric micelles formed by polypeptide graft copolymer and its mixtures with polypeptide block copolymer(2006)97 cited
- → Glucose-Responsive Polymeric Micelles via Boronic Acid–Diol Complexation for Insulin Delivery at Neutral pH(2019)84 cited
- → Glucose-Triggered Micellization of Poly(ethylene glycol)-b-poly(N-isopropylacrylamide-co-2-(acrylamido)phenylboronic acid) Block Copolymer(2020)16 cited
- → Thermo-responsive triblock copolymer micelles containing PEG6000 for either water-soluble or water-insoluble drug sustained release and treatment(2015)9 cited
- → Preparation and characterization of potential doxorubicin-loaded mixed micelles formed from vitamin E containing graft copolymers and PEG-b-PLA diblock copolymers(2015)10 cited