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金丝桃苷-大豆疏水肽基纳米复合物制备及其稳定性OA

Fabrication and Stabilization of Hyperoside-Soybean Hydrophobic Peptide Nanocomplex

中文摘要英文摘要

金丝桃苷(Hyperoside,HYP)具有优异的抗氧化、抗肿瘤及消炎等生物活性,但其水溶性差、生物利用度低等问题制约了其在药物开发和功能性食品领域的应用.本研究采用 pH 驱动法制备金丝桃苷-大豆疏水肽基纳米复合物(Hyperoside-loaded soybean hydrophobic peptide-based nanocomplexes,SPN-HYP),确定荷载金丝桃苷最佳浓度,并系统表征其理化性质及生物可及性.结果表明,利用大豆多肽疏水聚集体构建金丝桃苷纳米复合体系,提高了其水溶性和稳定性.纳米颗粒溶液呈黄色,包埋率达 90%以上,荷载率为 18.88%±0.033%,粒径在160~180 nm之间.扫描电镜(Scanning electron microscopy,SEM)、傅里叶变换红外光谱(Fourier Transform infrared spectroscopy,FTIR)分析以及 Zeta 电位结果显示 SPN 能成功荷载 HYP;4℃贮藏 15 d粒径变化率<10%,模拟胃肠消化实验显示,SPN-HYP 的 HYP 生物可及性显著高于游离态(P<0.05),能较好保持 HYP的抗氧化性且能提高 HYP在肠胃消化中的稳定性以及生物可及性.因此,基于大豆疏水肽的纳米递送体系可提升金丝桃苷在功能性食品或药物开发中的应用潜力.

Hyperoside(HYP),a flavonoid with potent antioxidant,antitumor,and anti-inflammatory activities,has limited applications in pharmaceutical development and functional foods because of its poor water solubility and low bioavailability.In this study,hyperoside-loaded soybean hydrophobic peptide-based nanocomplexes(SPN-HYP)were prepared using a pH-driven method.The optimal HYP loading concentration was determined,and the physicochemical properties and bioaccessibility of the resulting nanocomplexes were systematically characterized.The results showed that soybean peptide hydrophobic aggregates could be used to construct HYP-loaded nanocomplexes,thereby improving the water solubility and stability of HYP.The nanoparticle dispersion was yellow in appearance,with an encapsulation efficiency above 90%,a loading capacity of 18.88%±0.033%,and a particle size ranging from 160 to 180 nm.Scanning electron microscopy(SEM),Fourier transform infrared spectroscopy(FTIR),and Zeta potential analysis confirmed the successful incorporation of HYP into SPN.After storage at 4℃for 15 days,the particle size variation remained below 10%.In vitro simulated gastrointestinal digestion showed that the bioaccessibility of HYP in the SPN-HYP system was significantly higher than that of free HYP(P<0.05).In addition,the SPN-HYP system effectively preserved the antioxidant activity of HYP and improved its stability and bioaccessibility during gastrointestinal digestion.Therefore,the soybean hydrophobic peptide-based nano-delivery system shows promising potential for enhancing the application of hyperoside in functional foods and pharmaceutical development.

许晓韵;史阳凯;张远红;于立梅

仲恺农业工程学院轻工食品学院,广东 广州 510225仲恺农业工程学院轻工食品学院,广东 广州 510225仲恺农业工程学院轻工食品学院,广东 广州 510225仲恺农业工程学院轻工食品学院,广东 广州 510225||广东明德升科农牧有限公司,广东 韶关 512026

轻工纺织

金丝桃苷大豆多肽疏水聚集体纳米复合物稳定性生物可及性

hyperosidesoybean peptide hydrophobic aggregatesnanocomplexesstabilitybioaccessibility

《食品工业科技》 2026 (10)

56-62,7

广东省本科教学质量与教学改革工程项目(粤教高函[2024]9号)广东省博士工作站粤人社函[2024]60号广东省研究生示范课程建设项目(2022SFKC071).

10.13386/j.issn1002-0306.2025040017

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