一种高效的 Buchwald-Hartwig/还原环化用于卤代苯并嗪支架多样化：针对潜在的抗菌靶点，生物膜清除和前药探索。

An Efficient Buchwald-Hartwig/Reductive Cyclization for the Scaffold Diversification of Halogenated Phenazines: Potent Antibacterial Targeting, Biofilm Eradication, and Prodrug Exploration.

机构信息

Department of Medicinal Chemistry, Center for Natural Products, Drug Discovery and Development (CNPD3), College of Pharmacy , University of Florida , Gainesville , Florida 32610 , United States.

Department of Molecular Genetics & Microbiology, College of Medicine , University of Florida , Gainesville , Florida 32610 , United States.

出版信息

J Med Chem. 2018 May 10;61(9):3962-3983. doi: 10.1021/acs.jmedchem.7b01903. Epub 2018 Apr 19.

DOI:10.1021/acs.jmedchem.7b01903

PMID:29638121

Abstract

Bacterial biofilms are surface-attached communities comprised of nonreplicating persister cells housed within a protective extracellular matrix. Biofilms display tolerance toward conventional antibiotics, occur in ∼80% of infections, and lead to >500000 deaths annually. We recently identified halogenated phenazine (HP) analogues which demonstrate biofilm-eradicating activities against priority pathogens; however, the synthesis of phenazines presents limitations. Herein, we report a refined HP synthesis which expedited the identification of improved biofilm-eradicating agents. 1-Methoxyphenazine scaffolds were generated through a Buchwald-Hartwig cross-coupling (70% average yield) and subsequent reductive cyclization (68% average yield), expediting the discovery of potent biofilm-eradicating HPs (e.g., 61: MRSA BAA-1707 MBEC = 4.69 μM). We also developed bacterial-selective prodrugs (reductively activated quinone-alkyloxycarbonyloxymethyl moiety) to afford HP 87, which demonstrated excellent antibacterial and biofilm eradication activities against MRSA BAA-1707 (MIC = 0.15 μM, MBEC = 12.5 μM). Furthermore, active HPs herein exhibit negligible cytotoxic or hemolytic effects, highlighting their potential to target biofilms.

摘要

细菌生物膜是由附着在表面的非复制持久细胞组成的群落，位于保护性细胞外基质中。生物膜对常规抗生素具有耐受性，存在于约 80%的感染中，每年导致超过 50 万人死亡。我们最近发现了卤代吩嗪（HP）类似物，它们对优先病原体具有清除生物膜的活性；然而，吩嗪的合成存在局限性。在此，我们报告了一种改良的 HP 合成方法，加快了具有更好清除生物膜活性的化合物的鉴定。1-甲氧基吩嗪支架通过 Buchwald-Hartwig 交叉偶联（平均产率 70%）和随后的还原环化（平均产率 68%）生成，加速了具有强清除生物膜活性的 HP 的发现（例如，61：MRSA BAA-1707 MBEC = 4.69 μM）。我们还开发了细菌选择性前药（还原激活的醌-烷氧基羰氧基甲基部分）以得到 HP 87，它对 MRSA BAA-1707 表现出优异的抗菌和清除生物膜活性（MIC = 0.15 μM，MBEC = 12.5 μM）。此外，本文中具有活性的 HP 对细胞毒性或溶血作用的影响可以忽略不计，这突出了它们靶向生物膜的潜力。

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一种高效的 Buchwald-Hartwig/还原环化用于卤代苯并嗪支架多样化：针对潜在的抗菌靶点，生物膜清除和前药探索。

An Efficient Buchwald-Hartwig/Reductive Cyclization for the Scaffold Diversification of Halogenated Phenazines: Potent Antibacterial Targeting, Biofilm Eradication, and Prodrug Exploration.

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