人膳食黄酮醇的生物利用度和健康效应。

P C Hollman, M B Katan
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引用次数: 239

摘要

类黄酮是一种多酚类化合物,普遍存在于植物性食物中。超过4000种不同的类黄酮已经被描述,它们被分类为黄酮醇、黄酮、儿茶素、黄酮、花青素和异黄酮。黄酮类化合物在许多哺乳动物细胞系统以及体内具有多种生物效应。近年来,在动物实验中,人们越来越关注它们的抗氧化特性和在肿瘤发展的各个阶段的抑制作用。槲皮素是黄酮醇亚类的主要代表,是一种强抗氧化剂,在体外可防止低密度脂蛋白氧化。氧化的低密度脂蛋白是致动脉粥样硬化的,被认为是形成动脉粥样硬化斑块的关键中间体。这与流行病学研究的观察结果一致,即黄酮醇和黄酮的摄入与随后的冠心病呈负相关。然而,在这些研究中没有发现黄酮醇对癌症的影响。黄酮类化合物的吸收程度是一个重要的尚未解决的问题,以判断其许多所谓的健康效果。存在于食物中的类黄酮被认为是不可吸收的,因为它们以糖苷的形式与糖结合。只有不含糖分子的游离类黄酮,即所谓的苷元,被认为能够通过肠壁。水解只在结肠中由微生物进行,同时降解类黄酮。我们进行了一项研究,以量化各种膳食形式的槲皮素的吸收。令我们惊讶的是,洋葱中的槲皮素苷比纯苷元的吸收效果要好得多。随后的药代动力学研究表明,饮食中的槲皮素苷在吸收率和生物利用度方面存在显著差异。被吸收的槲皮素从血液中排出的速度很慢。黄酮类化合物的代谢已经在各种动物中进行了频繁的研究,但很少有关于人类的数据。类黄酮代谢的两个主要部位是肝脏和结肠菌群。有证据表明肝脏中羟基存在o -甲基化、磺化和葡萄糖醛酸化。黄酮类化合物的细菌环裂变发生在结肠中。随后的降解产物,酚酸,可以被吸收,并在动物的尿液中发现。关于新陈代谢的定量数据很少。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Bioavailability and health effects of dietary flavonols in man.

Flavonoids are polyphenolic compounds that occur ubiquitously in foods of plant origin. Over 4000 different flavonoids have been described, and they are categorized into flavonols, flavones, catechins, flavanones, anthocyanidins, and isoflavonoids. Flavonoids have a variety of biological effects in numerous mammalian cell systems, as well as in vivo. Recently much attention has been paid to their antioxidant properties and to their inhibitory role in various stages of tumour development in animal studies. Quercetin, the major representative of the flavonol subclass, is a strong antioxidant, and prevents oxidation of low density lipoproteins in vitro. Oxidized low density lipoproteins are atherogenic, and are considered to be a crucial intermediate in the formation of atherosclerotic plaques. This agrees with observations in epidemiological studies that the intake of flavonols and flavones was inversely associated with subsequent coronary heart disease. However, no effects of flavonols on cancer were found in these studies. The extent of absorption of flavonoids is an important unsolved problem in judging their many alleged health effects. Flavonoids present in foods were considered non-absorbable because they are bound to sugars as beta-glycosides. Only free flavonoids without a sugar molecule, the so-called aglycones were thought to be able to pass through the gut wall. Hydrolysis only occurs in the colon by microorganisms, which at the same time degrade flavonoids. We performed a study to quantify absorption of various dietary forms of quercetin. To our surprise, the quercetin glycosides from onions were absorbed far better than the pure aglycone. Subsequent pharmacokinetic studies with dietary quercetin glycosides showed marked differences in absorption rate and bioavailability. Absorbed quercetin was eliminated only slowly from the blood. The metabolism of flavonoids has been studied frequently in various animals, but very few data in humans are available. Two major sites of flavonoid metabolism are the liver and the colonic flora. There is evidence for O-methylation, sulfation and glucuronidation of hydroxyl groups in the liver. Bacterial ring fission of flavonoids occurs in the colon. The subsequent degradation products, phenolic acids, can be absorbed and are found in urine of animals. Quantitative data on metabolism are scarce.

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