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Glycated α-lactalbumin based micelles for quercetin delivery: Physicochemical stability and fate of simulated digestion

Wanting Yin, Luqing Song, Yanan Huang, Fang Chen, Xiaosong Hu, Lingjun Ma, Junfu Ji

2022Food Chemistry X14 citationsDOIOpen Access PDF

Abstract

Glycated protein is a kind of promising material that can improve the bioavailability of bioactive compounds and achieve sustained release under digestion. In this study, the α-lactalbumin (ALA)-dextran conjugates synthesized by Maillard reaction were fabricated to load and protect quercetin. Quercetin-loaded micelles stabilized by the ALA-dextran conjugates 1:4 showed the smallest size (428.57 ± 5.64 nm) with highest encapsulation efficiency (94.38% ± 0.50%) of quercetin. Compared to ALA/dextran mixture complex, the conjugates-based micelles had better pH, ionic strength and photothermal stability. Furthermore, the micelles composed of the conjugates 1:2 and 1:4 showed the best controlled release effect during the simulated digestion, releasing 62.41% and 66.15% of quercetin from the total encapsulated contents, respectively, which was mainly related to the resistance of glycated ALA to the enzymes. The findings indicated that ALA-dextran conjugates could be effectively designed for the ideal delivery system of hydrophobic bioactive compounds in food industry.

Topics & Concepts

MicelleDextranChemistryMaillard reactionBioavailabilityConjugateQuercetinChromatographyFisetinLactalbuminIonic strengthDigestion (alchemy)Organic chemistryAntioxidantMathematicsBiologyAqueous solutionMathematical analysisBioinformaticsProteins in Food SystemsAdvanced Glycation End Products researchFood Chemistry and Fat Analysis
Glycated α-lactalbumin based micelles for quercetin delivery: Physicochemical stability and fate of simulated digestion | Litcius