Hyperoside (HYP) has various potential benefits, however, its low water-solubility and poor bioavailability have restricted its application. Here, HYP-loaded zein-tea polyphenols (TP)-pectin ternary complex nanoparticles (Z/TP/P-HYP) were prepared by the antisolvent precipitation method for HYP delivery. The formed Z/TP/P-HYP are negatively charged spherical particles with a size of 246 nm, and have the highest HYP encapsulation efficiency (94.2%) at TP was 0.25 mg/mL. Fourier transform infrared spectroscopy revealed that hydrogen bonding, electrostatic interactions, and hydrophobic effects were major interactions to Z/TP/P-HYP formation. Differential scanning calorimetry confirmed that encapsulated HYP was in an amorphous state. Freeze-dried Z/TP/P-HYP displayed good water-redispersibility and high particle yield (95.2%). Z/TP/P-HYP exhibited improved pH (2.0-8.0) and ionic (0-500 mM) stability. Furthermore, Z/TP/P-HYP demonstrated stronger antioxidant properties than free HYP and provided HYP sustained release under simulated gastrointestinal conditions. Therefore, Z/TP/P-HYP have great potential as an effective HYP delivery system for applications in foods.
Keywords: Complex nanoparticle; Dimethyl sulfoxide (PubChem CID 679); Hyperoside; Hyperoside (PubChem CID 5281643); Pectin; Pectin (PubChem CID 441476); Polyphenol; Stability; Teapolyphenols (PubChem CID 65064); Zein; Zein (PubChem CID 57497356).
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