Chlorogenic acid as an indispensible partner of caffeic acid in coffee via selective regulation of prooxidative actions of caffeic acid.

Xiuli Li, Lumin Yang, Meng Hao, Tingting Song, Yufeng He, Mingchuan Yang, Jinsong Zhang
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Abstract

Chlorogenic acid (CGA) and caffeic acid (CA) are two major phenolic acids in coffee. Though the International Agency for Research on Cancer has classified CA as a Group2B carcinogen, coffee consumption seems generally safe within the usual levels of intake and is more likely to benefit health than to harm it. We thus speculated that CGA may effectively suppress the carcinogenic potential of CA. In a molar ratio achievable in vivo, this study shows that CGA can inhibit (i) copper reduction caused by CA, (ii) CA oxidation caused by copper, (iii) the formation of hydroxyl radicals by CA and copper, and (iv) DNA damage induced by CA, quercetin or (-)-epigallocatechin-3-gallate in the presence of copper. CA tends to undergo autoxidation to produce hydrogen peroxide and quinone, which further reacts with proteins to form quinoproteins. This autoxidation at a tolerable level normally induces beneficial adaptive responses. This study shows that CGA is less efficient than CA in producing hydrogen peroxide and quinoprotein; however, together they synergistically produce hydrogen peroxide and quinoprotein in vitro at a molar ratio achievable in vivo. In conclusion, CGA can selectively regulate the prooxidant activities of CA depending on whether copper is involved or not. CGA could be viewed as an indispensable partner of CA in coffee, given its dual role in suppressing the carcinogenic potential of CA and boosting CA autoxidation which is beneficial for disease prevention.

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绿原酸是咖啡中咖啡酸不可或缺的伴侣,通过选择性调节咖啡酸的抗氧化作用。
绿原酸(CGA)和咖啡酸(CA)是咖啡中的两种主要酚酸。尽管国际癌症研究机构已将CA列为2B类致癌物,但在通常的摄入量范围内,饮用咖啡似乎是安全的,更有可能有益健康,而不是损害健康。因此,我们推测CGA可能有效抑制CA的致癌潜能。在体内可达到的摩尔比下,本研究表明,CGA可以抑制(i)CA引起的铜还原,(ii)铜引起的CA氧化,(iii)CA和铜形成羟基自由基,以及(iv)在铜存在下,CA、槲皮素或(-)-表没食子儿茶素-3-没食子酸盐引起的DNA损伤。CA倾向于进行自动氧化以产生过氧化氢和醌,后者进一步与蛋白质反应形成醌蛋白。这种可耐受水平的自氧化通常会诱导有益的适应性反应。本研究表明,CGA在生产过氧化氢和醌蛋白方面的效率低于CA;然而,它们在体外以体内可达到的摩尔比协同产生过氧化氢和醌蛋白。总之,CGA可以选择性地调节CA的促氧化活性,这取决于是否涉及铜。CGA可以被视为CA在咖啡中不可或缺的伙伴,因为它在抑制CA的致癌潜力和促进CA的自氧化方面具有双重作用,这有利于预防疾病。
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