Preparation, Characterization and Antiproliferation Evaluation of Nanoliposome Loaded with Anthocyanins

Chemical Engineering (Engineering) eJournal Pub Date : 2021-01-01 DOI:10.2139/ssrn.3931686

Rui Zhang, Wei Liu, L. Kong, Qian Zhang, Shuxin Ye, Sijia Jiang, Jingren He, Muci Wu

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Abstract

This study aimed to investigate the nanoliposomes composed of soy lecithin and cholesterol for encapsulation of anthocyanins (ACNs) by thin film ultrasonic dispersion method. The processing conditions of ACNs nanoliposomes (ANLs) were optimized, and the ANLs were characterized by average particle size, zeta (ζ)-potential and polydispersity index (PDI). Their storage stability under various pH, temperature, light conditions, and in vitro antiproliferative effect were analyzed. The optimal preparation parameters were suggested to be soy lecithin to cholesterol ratio of 80 mg to 19 mg (w/w, 2 mg of ACNs) by using ultrasonication at 120 W for 3.12 min. The produced ANLs had the encapsulation efficiency of 40.1 % with average particle size of 117 nm, PDI of 0.254 and ζ-potential of 8.56 mV. These ANLs presenting ≈ 130 nm of stable sizes at tested pH conditions. The ACNs showed better in vitro antiproliferative effect for two cancer cell lines than ANLs, while ANLs were more stable against temperature and light. The ACNs in nanoliposomes displayed higher retention efficiency than that of in solution under various storage conditions. This study provides a promising approach for stabilizing ACNs-containing food ingredients, which displays large potentiality in the productions of nutraceutical and functional foods.

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载花青素纳米脂质体的制备、表征及抗增殖评价

以大豆卵磷脂和胆固醇组成的纳米脂质体为原料，采用超声薄膜分散法研究其对花青素的包封作用。优化了ACNs纳米脂质体(ANLs)的制备工艺，并用平均粒径、ζ (ζ)电位和多分散性指数(PDI)对ANLs进行了表征。分析了其在不同pH、温度、光照条件下的贮藏稳定性及体外抗增殖作用。最佳制备工艺参数为大豆卵磷脂/胆固醇比为80 mg / 19 mg (w/w, acn为2 mg)，超声功率为120 w，反应时间为3.12 min。所得ANLs包封率为40.1%，平均粒径为117 nm, PDI为0.254，ζ电位为8.56 mV。这些anl在测试的pH条件下呈现出≈130 nm的稳定尺寸。acn对两种肿瘤细胞系的体外抗增殖作用均优于anl，而anl对温度和光照的稳定性更强。在不同的储存条件下，纳米脂质体中acn的保留效率均高于溶液中。本研究为稳定含acns的食品成分提供了一种很有前景的方法，在营养保健和功能食品的生产中具有很大的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Chemical Engineering (Engineering) eJournal

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