Gastric Lipase and Cholesterol Esterase in the INFOGEST Model: Evaluation of Sterol Bioaccessibility in Plant Sterol-Enriched Wholemeal Rye Bread

Foods 2022 Pub Date : 2022-09-30 DOI:10.3390/foods2022-13017

Nerea Faubel, Mussa Makran, A. Cilla, A. Alegría, R. Barberá, G. García-Llatas

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Abstract

: The incorporation of key enzymes of the lipidic metabolism to the INFOGEST digestion method on plant sterol (PS) bioaccessibility is evaluated, for the first time, in a PS-enriched whole-14 meal ryebread. The assayed conditions were: (i) INFOGEST method; (ii) INFOGEST+gastric lipase (GL) (60 U/mL gastric digesta); and (iii) INFOGEST+GL+cholesterol esterase (CE) (0.075 U/mL in-16 testinal digesta). The contents in PS were determined in the bioaccessible fractions after saponifica-17 tion, derivatization into trimethylsilylethers, and analyzed by gas chromatography-mass spectrom-18 etry (for identification purposes) and gas chromatography-flame ionization detection (for quantifi-19 cation). The identified PS were: campesterol, campestanol, stigmasterol, b-sitosterol, sitostanol, D5-20 avenasterol, D5,24-stigmastadienol, D7-stigmastenol and D7-avenasterol from the PS-ingredient and rye flour. The incorporation of the lipidic enzymes slightly reduced bioaccessibility of total (from 23.2 to 17.6-18.2%) and individual PS (from 22.6-57.7 to 17.3-44%). In addition, no differences in bioaccessibility were detected when GL nor GL+CE were used. Largest bioaccessibility values were shown for D5-avenasterol and D7-avenasterol, regardless of the conditions assayed. In con-25 clusion, the use of GL and CE means a closer approach to in vivo conditions, and we propose their inclusion in the INFOGEST model for the evaluation of the bioaccessibility of sterols and other lipid bioactive compounds.

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在INFOGEST模型中胃脂肪酶和胆固醇酯酶:植物甾醇富集全麦黑麦面包中甾醇生物可及性的评价

在富含植物甾醇(PS)的全麦面包中，首次评价了脂质代谢关键酶与INFOGEST消化法对植物甾醇(PS)生物可及性的影响。试验条件为:(i) INFOGEST法;(ii) INFOGEST+胃脂肪酶(GL) (60 U/mL胃食糜);(iii) INFOGEST+GL+胆固醇酯酶(CE) (0.075 U/mL)。在皂化、衍生化成三甲基硅油醚的生物可及组分中测定PS的含量，并通过气相色谱-质谱-18(用于鉴定)和气相色谱-火焰电离检测(用于定量-19阳离子)进行分析。鉴定出的PS分别为:油菜甾醇、油菜甾醇、豆甾醇、b-谷甾醇、谷甾醇、D5-20阿芬那甾醇、D5、24-豆甾醇、d7 -豆甾醇和d7 -阿芬那甾醇。脂质酶的掺入略微降低了总PS的生物可及性(从23.2降至17.6-18.2%)和单个PS的生物可及性(从22.6-57.7降至17.3-44%)。此外，GL和GL+CE对生物可及性无显著影响。无论在何种条件下，d5 -阿芬那甾醇和d7 -阿芬那甾醇的生物可及性值均最大。总之，GL和CE的使用意味着更接近体内条件，我们建议将它们纳入INFOGEST模型，以评估甾醇和其他脂质生物活性化合物的生物可及性。

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Foods 2022

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