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Novel glucose-responsive nanoparticles based on p-hydroxyphenethyl anisate and 3-acrylamidophenylboronic acid reduce blood glucose and ameliorate diabetic nephropathy

Qiong Ma, Ligong Bian, Xi Zhao, Xuexia Tian, Hang Yin, Yutian Wang, Anhua Shi, Junzi Wu

2021Materials Today Bio26 citationsDOIOpen Access PDF

Abstract

An insulin delivery system that self-regulates blood sugar levels, mimicking the human pancreas, can improve hyperglycaemia. At present, a glucose-responsive insulin delivery system combining AAPBA with long-acting slow release biomaterials has been developed. However, the safety of sustained-release materials and the challenges of preventing diabetic complications remain. In this study, we developed a novel polymer slow release material using a plant extract—p-hydroxyphenylethyl anisate (HPA). After block copolymerisation with AAPBA, the prepared nanoparticles had good pH sensitivity, glucose sensitivity, insulin loading rate and stability under physiological conditions and had high biocompatibility. The analysis of streptozotocin-induced diabetic nephropathy (DN) mouse model showed that the insulin-loaded injection of nanoparticles stably regulated the blood glucose levels of DN mice within 48 ​h. Importantly, with the degradation of the slow release material HPA in vivo, the renal function improved, the inflammatory response reduced, and antioxidation levels in DN mice improved. This new type of nanoparticles provides a new idea for hypoglycaemic nano-drug delivery system and may have potential in the prevention and treatment of diabetic complications.

Topics & Concepts

Diabetic nephropathyBiocompatibilityIn vivoPharmacologyInsulinDiabetes mellitusDrug deliveryBlood sugarStreptozotocinChemistryNanoparticleMedicineInternal medicineEndocrinologyMaterials scienceNanotechnologyBiologyBiotechnologyOrganic chemistryAdvanced Glycation End Products researchNeurological Disorders and TreatmentsNatural Antidiabetic Agents Studies
Novel glucose-responsive nanoparticles based on p-hydroxyphenethyl anisate and 3-acrylamidophenylboronic acid reduce blood glucose and ameliorate diabetic nephropathy | Litcius