Fabrication and characterization of dihydromyricetin encapsulated zein-caseinate nanoparticles and its bioavailability in rat

•DMY encapsulated zein nanoparticles (DZP) were fabricated and characterized.•DZP significantly improve the solubility, stability and adhesive property of DMY.•Five metabolites of DMY were identified in rat plasma.•The bioavailability of DMY was 1.95 times enhanced in rats through DZP. Dihydromyrice...

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Bibliographic Details
Published in:Food chemistry 2020-11, Vol.330, p.127245-127245, Article 127245
Main Authors: Sun, Cui-Cui, Su, Hang, Zheng, Guo-Dong, Wang, Wen-Jun, Yuan, En, Zhang, Qing-Feng
Format: Article
Language:English
Subjects:
Bioavailability
Dihydromyricetin
Metabolism
Nanoparticles
Zein
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Summary:•DMY encapsulated zein nanoparticles (DZP) were fabricated and characterized.•DZP significantly improve the solubility, stability and adhesive property of DMY.•Five metabolites of DMY were identified in rat plasma.•The bioavailability of DMY was 1.95 times enhanced in rats through DZP. Dihydromyricetin (DMY) encapsulated zein-caseinate nanoparticles (DZP) were fabricated by antisolvent method. The encapsulation and loading efficiency of DMY in DZP were 90.2% and 22.6% as determined by HPLC. DZP is spherical with particle size and ζ potential of 206.4 nm and −29.6 mV, respectively. Physicochemical characterization showed that DMY existed in amorphous form in DZP and its interaction with proteins was found. The fabrication of DZP significantly improved the stability of DMY. Besides, the diffusion rate of DMY in DZP was faster than its suspensions in both simulated gastric and intestinal fluid. The adhesion of DMY in mice gastrointestinal tract was also improved. Besides DMY itself, its methylated metabolites with further sulfation and glucuronide were identified in rat plasma by UPLC-QTOF-MS. UPLC-QqQ-MS/MS quantitative analysis showed that the oral bioavailability of DMY was 1.95 times enhanced. Besides, the concentration of DMY metabolites in plasma were all increased.
ISSN:0308-8146
1873-7072
DOI:10.1016/j.foodchem.2020.127245