原花青素在体外消化模型中游离态和脂质体态下稳定性的研究：生物利用度、动力学释放特性、降解和抗氧化活性研究。

Insight of Stability of Procyanidins in Free and Liposomal Form under an in Vitro Digestion Model: Study of Bioaccessibility, Kinetic Release Profile, Degradation, and Antioxidant Activity.

机构信息

Food Science & Technology Research Center (CICTA), School of Chemical Engineering , Universidad Industrial de Santander , Carrera 27, Calle 9 , 68002 Bucaramanga , Colombia.

Foodomics Laboratory , Institute of Food Science Research (CIAL, CSIC-UAM) , Nicolás Cabrera 9 , 28049 Madrid , Spain.

出版信息

J Agric Food Chem. 2019 Feb 20;67(7):1990-2003. doi: 10.1021/acs.jafc.9b00351. Epub 2019 Feb 8.

DOI:10.1021/acs.jafc.9b00351

PMID:30680989

Abstract

Small unilamellar and multilayered liposomes loaded with polymeric (epi)catechins up to pentamers were produced. The bioaccessibility, kinetic release profile, and degradation under in vitro gastrointestinal conditions were monitored by UHPLC-DAD-QTOF-MS/MS. The results show that all of the procyanidins underwent depolymerization and epimerization into small molecular oligomers and mainly to (epi)catechin subunits. Moreover, all of the liposome formulations presented higher bioaccessibility and antioxidant activity in comparison to their respective counterparts in non-encapsulated form. Similar results were obtained with procyanidins from cocoa extract-loaded liposomes. Namely, the bioaccessibility of dimer, trimer, and tetramer fractions from cocoa-loaded liposomes were 4.5-, 2.1-, and 9.3-fold higher than those from the non-encapsulated cocoa extract. Overall, the procyanidin release profile was dependent on their chemical structure and physicochemical interaction with the lipid carrier. These results confirmed that liposomes are efficient carriers to stabilize and transport procyanidins with the aim of enhancing their bioaccessibility at a controlled release rate.

摘要

制备了载有聚合（表）儿茶素的小单层和多层脂质体，聚合（表）儿茶素达到五聚体。通过 UHPLC-DAD-QTOF-MS/MS 监测了生物利用度、动力学释放曲线和体外胃肠道条件下的降解情况。结果表明，所有原花青素都经历了解聚和表异构化，形成小分子低聚物，主要为（表）儿茶素亚基。此外，与非包封形式的相应物相比，所有脂质体制剂均表现出更高的生物利用度和抗氧化活性。从可可提取物负载的脂质体中得到的原花青素也得到了类似的结果。即，从负载脂质体的二聚体、三聚体和四聚体部分的生物利用度分别比非包封的可可提取物高 4.5、2.1 和 9.3 倍。总的来说，原花青素的释放曲线取决于它们的化学结构和与脂质载体的物理化学相互作用。这些结果证实，脂质体是稳定和运输原花青素的有效载体，目的是在控制释放速率的情况下提高其生物利用度。

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原花青素在体外消化模型中游离态和脂质体态下稳定性的研究：生物利用度、动力学释放特性、降解和抗氧化活性研究。

Insight of Stability of Procyanidins in Free and Liposomal Form under an in Vitro Digestion Model: Study of Bioaccessibility, Kinetic Release Profile, Degradation, and Antioxidant Activity.

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