Phytochemical Composition and Functional Properties of Brassicaceae Microgreens: Impact of In Vitro Digestion.

IF 5.6 2区 生物学 International Journal of Molecular Sciences Pub Date : 2024-11-04 DOI:10.3390/ijms252111831
Ivana Šola, Valerija Vujčić Bok, Maja Popović, Sanja Gagić
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Abstract

The aim of this study was to compare the concentration of phenolic compounds, glucosinolates, proteins, sugars and vitamin C between kohlrabi (Brassica oleracea var. acephala gongylodes), Savoy cabbage (B. oleracea sabauda), Brussels sprouts (B. oleracea gemmifera), cauliflower (B. oleracea botrytis), radish (Raphanus sativus) and garden cress (Lepidium sativum) microgreens for their antioxidant and hypoglycemic potential. In addition, we applied an in vitro-simulated system of human digestion in order to track the bioaccessibility of the selected phenolic representatives, and the stability of the microgreens' antioxidant and hypoglycemic potential in terms of α-amylase and α-glucosidase inhibition after each digestion phase. Using spectrophotometric and RP-HPLC methods with statistical analyses, we found that garden cress had the lowest soluble sugar content, while Savoy cabbage and Brussels sprouts had the highest glucosinolate levels (76.21 ± 4.17 mg SinE/g dm and 77.73 ± 3.33 mg SinE/g dm, respectively). Brussels sprouts were the most effective at inhibiting protein glycation (37.98 ± 2.30% inhibition). A very high positive correlation (r = 0.830) between antiglycation potential and conjugated sinapic acid was recorded. For the first time, the antidiabetic potential of microgreens after in vitro digestion was studied. Kohlrabi microgreens best inhibited α-amylase in both initial and intestinal digestion (60.51 ± 3.65% inhibition and 62.96 ± 3.39% inhibition, respectively), and also showed the strongest inhibition of α-glucosidase post-digestion (19.22 ± 0.08% inhibition). Brussels sprouts, cauliflower, and radish had less stable α-glucosidase than α-amylase inhibitors during digestion. Kohlrabi, Savoy cabbage, and garden cress retained inhibition of both enzymes after digestion. Kohlrabi antioxidant capacity remained unchanged after digestion. The greatest variability was seen in the original samples, while the intestinal phase resulted in the most convergence, indicating that digestion reduced differences between the samples. In conclusion, this study highlights the potential of various microgreens as sources of bioactive compounds with antidiabetic and antiglycation properties. Notably, kohlrabi microgreens demonstrated significant enzyme inhibition after digestion, suggesting their promise in managing carbohydrate metabolism and supporting metabolic health.

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十字花科微型蔬菜的植物化学成分和功能特性:体外消化的影响。
本研究的目的是比较苤蓝(Brassica oleracea var. acephala gongylodes)、沙威卷心菜(B. oleracea sabauda)、球芽甘蓝(B. oleracea gemmifera)、花椰菜(B. oleracea botrytis)、萝卜(Raphanus sativas)和茄子(B. oleracea var.oleracea sabauda)、球芽甘蓝(B. oleracea gemmifera)、花椰菜(B. oleracea botrytis)、萝卜(Raphanus sativus)和园芹(Lepidium sativum)微菜的抗氧化和降血糖潜力。此外,我们还采用了体外模拟人体消化系统,以跟踪所选酚类代表物质的生物可及性,以及微蔬菜抗氧化和降血糖潜力的稳定性,即每个消化阶段后α-淀粉酶和α-葡萄糖苷酶的抑制作用。通过分光光度法和 RP-HPLC 法以及统计分析,我们发现花园芹的可溶性糖含量最低,而沙瓦卷心菜和球芽甘蓝的葡萄糖苷酸含量最高(分别为 76.21 ± 4.17 毫克 SinE/g dm 和 77.73 ± 3.33 毫克 SinE/g dm)。球芽甘蓝在抑制蛋白质糖化方面最为有效(抑制率为 37.98 ± 2.30%)。抗糖化潜力与共轭山奈酸之间存在很高的正相关性(r = 0.830)。首次研究了微型蔬菜体外消化后的抗糖尿病潜力。苤蓝微菜在初始消化和肠道消化过程中对α-淀粉酶的抑制作用最强(抑制率分别为 60.51 ± 3.65% 和 62.96 ± 3.39%),在消化后对α-葡萄糖苷酶的抑制作用也最强(抑制率为 19.22 ± 0.08%)。在消化过程中,球芽甘蓝、花椰菜和萝卜的α-葡萄糖苷酶抑制剂的稳定性低于α-淀粉酶抑制剂。苤蓝、萨瓦卷心菜和园芹菜在消化后对这两种酶都有抑制作用。苤蓝的抗氧化能力在消化后保持不变。原始样本的差异最大,而肠道阶段的差异最大,这表明消化减少了样本之间的差异。总之,这项研究强调了各种微型蔬菜作为具有抗糖尿病和抗糖化特性的生物活性化合物来源的潜力。值得注意的是,苤蓝微菜在消化后表现出明显的酶抑制作用,这表明它们在管理碳水化合物代谢和支持代谢健康方面大有可为。
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期刊介绍: The International Journal of Molecular Sciences (ISSN 1422-0067) provides an advanced forum for chemistry, molecular physics (chemical physics and physical chemistry) and molecular biology. It publishes research articles, reviews, communications and short notes. Our aim is to encourage scientists to publish their theoretical and experimental results in as much detail as possible. Therefore, there is no restriction on the length of the papers or the number of electronics supplementary files. For articles with computational results, the full experimental details must be provided so that the results can be reproduced. Electronic files regarding the full details of the calculation and experimental procedure, if unable to be published in a normal way, can be deposited as supplementary material (including animated pictures, videos, interactive Excel sheets, software executables and others).
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