Comparison of antioxidant efficiencies in oil‐in‐water emulsion using extracellular vesicles from olive co‐products or liposomes as antioxidants carriers

Bruno Baréa, Nathalie Barouh, Amal Fenaghra, Pascal Colosetti, Jérôme Lecomte, Erwann Durand, Anne Mey, Fabienne Laugerette, Marie‐Caroline Michalski, Claire Bourlieu‐Lacanal, Pierre Villeneuve
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Abstract

Olive extracellular vesicles and synthetic liposomes were evaluated as carriers of antioxidants to stabilize oil‐in‐water emulsions against oxidative degradation. For this, hydroxytyrosol, rosmarinic acid and their lipophilic counterparts, (hydroxytyrosyl dodecanoate esters or eicosyl rosmarinate esters) were loaded into these carrier vesicles and the antioxidant efficiencies of these formulations were compared with those of the corresponding antioxidants alone. Using the conjugated autoxidizable triene assay (CAT assay), our results shows that loaded synthetic liposome mimicking the lipid membrane composition of olive extracellular vesicle allowed to enhance the antioxidant effect of the loaded antioxidant especially with the two lipophilic hydroxytyrosol and rosmarinic acid esters. On the contrary, the loading of the studied antioxidant into the olive extracellular vesicles did not result in an improvement of the antioxidant activity. The antioxidant effects of loaded vesicles were also evaluated in rapeseed oil (1% w/w)‐in‐water emulsions that were stored at 40°C for 21 days and for which oxidative status was monitored by the quantification of primary and secondary oxidation compounds. In that case, the boosting effect of liposomal carriers was not confirmed. This could be due to a different type of emulsions compared to the one used with the CAT assay as different surfactants and oxidation inducers were employed. Additionally, the limited physical stability of the carrier could be involved as liposomes loaded with the most lipophilic antioxidants, namely hydroxytyrosyl dodecanoate and eicosyl rosmarinate were shown to be instable for period exceeding 10 days of storage.
以橄榄副产品细胞外囊泡或脂质体为抗氧化剂载体的水包油乳液抗氧化效率比较
对橄榄细胞外囊泡和合成脂质体作为抗氧化剂载体进行了评估,以稳定水包油乳剂,防止氧化降解。为此,将羟基酪醇、迷迭香酸及其亲脂对应物(羟基酪醇十二酸酯或二十烷基迷迭香酸酯)装入这些载体囊泡中,并将这些制剂的抗氧化效率与单独使用相应抗氧化剂的抗氧化效率进行比较。通过共轭自氧化三烯检测法(CAT 检测法),我们的研究结果表明,模拟橄榄细胞外囊泡脂膜成分的合成脂质体能增强所负载抗氧化剂的抗氧化效果,尤其是两种亲脂性羟基酪醇和迷迭香酸酯。相反,在橄榄细胞外囊泡中添加所研究的抗氧化剂并不能提高抗氧化活性。此外,还在菜籽油(1% w/w)水乳剂中评估了负载囊泡的抗氧化效果,这些乳剂在 40°C 下储存 21 天,并通过量化初级和次级氧化化合物来监测氧化状态。在这种情况下,脂质体载体的增效作用没有得到证实。这可能是由于采用了不同的表面活性剂和氧化诱导剂,因此乳剂的类型与 CAT 试验所用的乳剂不同。此外,载体的物理稳定性有限也可能与此有关,因为载入了亲脂性最强的抗氧化剂(即羟基酪氨酰十二酸酯和二十烷基香豆素)的脂质体在超过 10 天的储存期内都不稳定。
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