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自组装豌豆伴球蛋白纳米颗粒作为纳米载体用于提高姜黄素的抗氧化活性、环境稳定性和缓释性能。

Self-assembled pea vicilin nanoparticles as nanocarriers for improving the antioxidant activity, environmental stability and sustained-release property of curcumin.

作者信息

Liu Huihui, Wang Zijun, Xu Jingjing, Ji Fuyun, Luo Shuizhong, Zhong Xiyang, Zhao Yanyan, Zheng Zhi

机构信息

School of Food and Biological Engineering, Key Laboratory for Agricultural Products Processing of Anhui Province, Hefei University of Technology, Hefei, China.

出版信息

J Sci Food Agric. 2024 Mar 15;104(4):2467-2476. doi: 10.1002/jsfa.13132. Epub 2023 Nov 30.

DOI:10.1002/jsfa.13132
PMID:37986244
Abstract

BACKGROUND

The application of curcumin (Cur) in the food industry is usually limited by its low water solubility and poor stability. This study aimed to fabricate self-assembled nanoparticles using pea vicilin (7S) through a pH-shifting method (pH 7-pH 12-pH 7) to develop water-soluble nanocarriers of Cur.

RESULTS

Intrinsic fluorescence, far-UV circular dichroism spectra and transmission electron microscopy analysis demonstrated that the structure of 7S could be unfolded at pH 12.0 and refolded when the pH shifted to 7.0. The assembled 7S-Cur exhibited a high loading ability of 81.63 μg mg for Cur and homogeneous particle distribution. Cur was encapsulated in the 7S hydrophobic nucleus in an amorphous form and combined through hydrophobic interactions and hydrogen bonding, resulting in the static fluorescence quenching of 7S. Compared with free Cur, the retention rates of Cur in 7S-Cur were approximately 1.12 and 1.70 times higher under UV exposure at 365 nm or heating at 75 °C for 120 min, respectively, as well as 7S-Cur showing approximately 1.50 times higher antioxidant activity. During simulated gastrointestinal experiments, 7S-Cur exhibited a better sustained-release property than free Cur.

CONCLUSION

The self-assembled 7S nanocarriers prepared using a pH-shifting method effectively improved the antioxidant activity, environmental stability and sustained-release property of Cur. Therefore, 7S isolated from pea protein could be used as potential nanocarriers for Cur. © 2023 Society of Chemical Industry.

摘要

背景

姜黄素(Cur)在食品工业中的应用通常受到其低水溶性和稳定性差的限制。本研究旨在通过pH转变法(pH 7-pH 12-pH 7)利用豌豆伴球蛋白(7S)制备自组装纳米颗粒,以开发Cur的水溶性纳米载体。

结果

内源荧光、远紫外圆二色光谱和透射电子显微镜分析表明,7S的结构在pH 12.0时可展开,当pH转变为7.0时可重新折叠。组装后的7S-Cur对Cur表现出81.63μg mg的高负载能力和均匀的颗粒分布。Cur以无定形形式包裹在7S疏水核中,并通过疏水相互作用和氢键结合,导致7S的静态荧光猝灭。与游离Cur相比,在365nm紫外光照射或75°C加热120min条件下,Cur在7S-Cur中的保留率分别高出约1.12倍和1.70倍,并且7S-Cur的抗氧化活性高出约1.50倍。在模拟胃肠道实验中,7S-Cur比游离Cur表现出更好的缓释性能。

结论

采用pH转变法制备的自组装7S纳米载体有效提高了Cur的抗氧化活性、环境稳定性和缓释性能。因此,从豌豆蛋白中分离出的7S可作为Cur的潜在纳米载体。©2023化学工业协会。

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