膳食植物微RNA是细胞胆固醇外流的潜在调节因子

María del Carmen López de las Hazas , Joao Tomé-Carneiro , Livia Balaguer , Gema de la Peña , Luis A. Chapado , Marta Alonso-Bernáldez , Andrea del Saz-Lara , Judit Gil-Zamorano , Emma Burgos-Ramos , María Rodríguez-Pérez , Diego Gómez-Coronado , Alberto Dávalos
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引用次数: 0

摘要

目的流行病学证据表明,坚持食用富含蔬菜的饮食与动脉粥样硬化的保护作用有关,而生物活性成分最有可能发挥相关作用。王国间调控的概念开辟了一个新的研究范式,食用蔬菜中的微 RNA(miRNA)可能会影响消费者的基因表达并导致生物效应。我们的目的是研究西兰花衍生的 miRNAs 对体外细胞胆固醇外流的潜在影响。方法根据西兰花这种广泛食用的十字花科蔬菜中的高丰度miRNAs及其在其他植物中的存在情况,我们从芸薹属欧芹(Brassica oleracea)变种(西兰花)中选取了四个miRNAs(miR159a、miR159b、miR166a和miR403)进行进一步研究。对所选的 miRNA 进行了 3′-末端 2′-O-甲基化合成,并评估了它们的细胞毒性、体外胃肠道耐受性和细胞吸收率。通过路径分析,对哺乳动物转录组中的潜在靶基因进行了硅评估。结果miRNAs的体外胃肠道消化存活率约为1%,但四种候选RNA之间存在一定差异。哺乳动物细胞的摄取得到证实,并观察到胆固醇外流增加。途径分析表明,这些 miRNAs 参与了磷酸化、磷脂酰肌醇和 Wnt 信号转导以及胰岛素/IGF 途径相关的生物过程。
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Dietary plant microRNAs as potential regulators of cellular cholesterol efflux

Aim

Epidemiological evidence suggests adherence to vegetable-rich diets is associated to atheroprotective effects and bioactive components are most likely to play a relevant role. The notion of inter-kingdom regulation has opened a new research paradigm and perhaps microRNAs (miRNAs) from edible vegetables could influence consumer gene expression and lead to biological effects. We aimed to investigate the potential impact of broccoli-derived miRNAs on cellular cholesterol efflux in vitro.

Methods

Four miRNAs (miR159a, miR159b, miR166a and miR403) from Brassica oleracea var. italica (broccoli), a widely consumed cruciferous vegetable, were selected for further investigation, based on their high abundancy in this vegetable and their presence in other plants. Selected miRNAs were synthesized with a 3′-terminal 2′-O-methylation and their cellular toxicity, in vitro gastrointestinal resistance and cellular uptake were evaluated. Potential target genes within the mammalian transcriptome were assessed in silico following pathway analysis. In vitro cholesterol efflux was assessed in human THP-1-derived macrophages.

Results

miRNAs survival to in vitro GI digestion was around 1%, although some variation was seen between the four candidates. Cellular uptake by mammalian cells was confirmed, and an increase in cholesterol efflux was observed. Pathway analysis suggested these miRNAs are involved in biological processes related to phosphorylation, phosphatidylinositol and Wnt signaling, and to the insulin/IGF pathway.

Conclusions

Health-promoting properties attributed to cruciferous vegetables, might be mediated (at least in part) through miRNA-related mechanisms.
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