Preventing Microbial Infections with Natural Phenolic Compounds

Kardelen Ecevit, A. Barros, Joana M. Silva, R. L. Reis
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引用次数: 16

Abstract

The struggle between humans and pathogens has taken and is continuing to take countless lives every year. As the misusage of conventional antibiotics increases, the complexity associated with the resistance mechanisms of pathogens has been evolving into gradually more clever mechanisms, diminishing the effectiveness of antibiotics. Hence, there is a growing interest in discovering novel and reliable therapeutics able to struggle with the infection, circumvent the resistance and defend the natural microbiome. In this regard, nature-derived phenolic compounds are gaining considerable attention due to their potential safety and therapeutic effect. Phenolic compounds comprise numerous and widely distributed groups with different biological activities attributed mainly to their structure. Investigations have revealed that phenolic compounds from natural sources exhibit potent antimicrobial activity against various clinically relevant pathogens associated with microbial infection and sensitize multi-drug resistance strains to bactericidal or bacteriostatic antibiotics. This review outlines the current knowledge about the antimicrobial activity of phenolic compounds from various natural sources, with a particular focus on the structure-activity relationship and mechanisms of actions of each class of natural phenolic compounds, including simple phenols, phenolic acids, coumarin, flavonoids, tannins, stilbenes, lignans, quinones, and curcuminoids.
用天然酚类化合物预防微生物感染
人类与病原体之间的斗争每年已经并将继续夺去无数人的生命。随着常规抗生素滥用的增加,与病原体耐药机制相关的复杂性逐渐演变为更聪明的机制,降低了抗生素的有效性。因此,人们越来越有兴趣发现新的、可靠的治疗方法,能够与感染作斗争,绕过耐药性,保护天然微生物群。在这方面,天然衍生的酚类化合物由于其潜在的安全性和治疗效果而受到相当大的关注。酚类化合物包括数量众多且分布广泛的基团,其不同的生物活性主要归因于其结构。研究表明,天然来源的酚类化合物对与微生物感染相关的各种临床相关病原体具有有效的抗菌活性,并使多重耐药菌株对杀菌或抑菌抗生素敏感。本文综述了目前对各种天然来源的酚类化合物的抗菌活性的了解,重点介绍了每一类天然酚类化合物的结构-活性关系和作用机制,包括简单酚类、酚酸类、香豆素类、类黄酮类、单宁类、苯乙烯类、木脂素类、醌类和姜黄素类。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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