Mazdida Sulaiman, Layane Ebehairy, Veeranoot Nissapatorn, Mohammed Rahmatullah, Jhonnel Villegas, Helina Jean Dupa, Ricksterlie C Verzosa, Karma G Dolma, Muhamad Shabaz, Scholastica Lanting, Nor Azizun Rusdi, Nor Hayati Abdullah, Mohammed Khaled Bin Break, Teng Jin Khoo, Wei Wang, Christophe Wiart
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引用次数: 0
摘要
背景:泛耐药细菌的出现要求开发新的抗生素和抗生素增效剂:本综述确定了从 1945 年到 2023 年在亚洲和太平洋地区的被子植物中发现的抗菌酚类化合物,并分析了它们的活性强度和光谱、分布、分子质量、溶解度、作用模式、结构-活性,以及它们与抗生素的协同作用、毒性和临床潜力:本综述中的所有数据均来自 Google Scholar、PubMed、Science Direct、Web of Science 和图书馆检索;其他来源的数据不包括在内。我们使用了以下关键词组合:酚类化合物"、"植物 "和 "抗菌"。共产生了 736 条结果。我们对每个结果进行了检查,排除了不包含与主题相关信息或来自非同行评审期刊的文章。对剩余的 467 篇文章中的每一篇都进行了仔细阅读,以了解其中包含的信息:2-甲氧基-7-甲基朱葛酮、[6]-姜酚、无患子酸、黄芩苷、荆芥苷、马拉巴里酮 A 和 B 具有作为抗菌线索开发的潜力:结论:亚洲和太平洋地区的被子植物提供了丰富的天然产品,有可能被开发为治疗细菌感染的线索。
Antibacterial phenolic compounds from the flowering plants of Asia and the Pacific: coming to the light.
Context: The emergence of pan-resistant bacteria requires the development of new antibiotics and antibiotic potentiators.
Objective: This review identifies antibacterial phenolic compounds that have been identified in Asian and Pacific Angiosperms from 1945 to 2023 and analyzes their strengths and spectra of activity, distributions, molecular masses, solubilities, modes of action, structures-activities, as well as their synergistic effects with antibiotics, toxicities, and clinical potential.
Methods: All data in this review was compiled from Google Scholar, PubMed, Science Direct, Web of Science, and library search; other sources were excluded. We used the following combination of keywords: 'Phenolic compound', 'Plants', and 'Antibacterial'. This produced 736 results. Each result was examined and articles that did not contain information relevant to the topic or coming from non-peer-reviewed journals were excluded. Each of the remaining 467 selected articles was read critically for the information that it contained.
Results: Out of ∼350 antibacterial phenolic compounds identified, 44 were very strongly active, mainly targeting the cytoplasmic membrane of Gram-positive bacteria, and with a molecular mass between 200 and 400 g/mol. 2-Methoxy-7-methyljuglone, [6]-gingerol, anacardic acid, baicalin, vitexin, and malabaricone A and B have the potential to be developed as antibacterial leads.
Conclusions: Angiosperms from Asia and the Pacific provide a rich source of natural products with the potential to be developed as leads for treating bacterial infections.
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