Julia A. Fairbairn, Rachel V. Kerr, Nika-Kare A. Pierre-White, Anthony Jacovides, Becca W. A. Baileeves, Phillip J. Stansfeld, Gerhard Bringmann, Andrew T. Merritt and Timothy D. H. Bugg
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A peptide motif Arg-Trp-x-x-Trp from protein E was used to design a set of triazinedione peptidomimetics, which inhibit particulate MraY (<strong>6d</strong> IC<small><sub>50</sub></small> 48 μM), and show antimicrobial activity against Gram-negative and Gram-positive antibiotic-resistant clinical strains (<strong>7j</strong> MIC <em>Acinetobacter baumannii</em> 16 μg mL<small><sup>−1</sup></small>, <em>Staphyloccoccus aureus</em> MRSA 2–4 μg mL<small><sup>−1</sup></small>). Docking against a predicted structure for <em>E. coli</em> MraY revealed two possible binding sites close to helix 9, the binding site for protein E. Antimicrobial activity of analogue <strong>6j</strong> was found to be synergistic with bacitracin in <em>Micrococcus flavus</em>, consistent with a link between this inhibition site and undecaprenyl phosphate uptake. Alkaloid michellamine B, also predicted to bind in the cleft adjacent to helix 9, was also found to be synergistic with bacitracin. These data provide experimental evidence that the unusual hydrophobic cleft adjacent to helix 9 in MraY is involved in uptake of undecaprenyl phosphate, in addition to recently identified transporters UptA and PopT, and that this process can be targeted by small molecules as a novel antibacterial mechanism.</p>","PeriodicalId":88,"journal":{"name":"MedChemComm","volume":" 4","pages":" 1641-1653"},"PeriodicalIF":3.5970,"publicationDate":"2025-01-30","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11812184/pdf/","citationCount":"0","resultStr":"{\"title\":\"Antimicrobial triazinedione inhibitors of the translocase MraY–protein E interaction site: synergistic effects with bacitracin imply a new mechanism of action†\",\"authors\":\"Julia A. Fairbairn, Rachel V. Kerr, Nika-Kare A. Pierre-White, Anthony Jacovides, Becca W. A. Baileeves, Phillip J. Stansfeld, Gerhard Bringmann, Andrew T. 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引用次数: 0
摘要
大肠杆菌转译酶 MraY 是噬菌体 ϕX174 的细菌溶解蛋白 E 的靶标,在靠近蛋白胞外面螺旋 9 上 Phe-288 的位置发生相互作用。利用蛋白质 E 中的肽基 Arg-Trp-x-x-Trp 设计了一组三氮二酮拟肽物,它们能抑制微粒 MraY(6d IC50 48 μM),并对革兰氏阴性和革兰氏阳性抗生素耐药临床菌株具有抗菌活性(7j MIC 鲍曼不动杆菌 16 μg mL-1,金黄色葡萄球菌 MRSA 2-4 μg mL-1)。根据大肠杆菌 MraY 的预测结构进行的对接显示,在靠近螺旋 9(蛋白质 E 的结合位点)的地方有两个可能的结合位点。在黄微球菌中,类似物 6j 的抗菌活性与杆菌肽具有协同作用,这与该抑制位点与磷酸十一烯醇吸收之间的联系是一致的。根据预测,类生物碱小檗胺 B 也会与螺旋 9 附近的裂隙结合,也发现它与杆菌肽具有协同作用。这些数据提供了实验证据,证明除了最近发现的转运体 UptA 和 PopT 外,MraY 中与螺旋 9 相邻的不寻常疏水裂隙也参与了磷酸十一烷基酯的摄取,而且这一过程可以作为一种新型抗菌机制而被小分子药物锁定。
Antimicrobial triazinedione inhibitors of the translocase MraY–protein E interaction site: synergistic effects with bacitracin imply a new mechanism of action†
Escherichia coli translocase MraY is the target for bacteriolytic protein E from bacteriophage ϕX174, interacting at a site close to Phe-288 on helix 9, on the extracellular face of the protein. A peptide motif Arg-Trp-x-x-Trp from protein E was used to design a set of triazinedione peptidomimetics, which inhibit particulate MraY (6d IC50 48 μM), and show antimicrobial activity against Gram-negative and Gram-positive antibiotic-resistant clinical strains (7j MIC Acinetobacter baumannii 16 μg mL−1, Staphyloccoccus aureus MRSA 2–4 μg mL−1). Docking against a predicted structure for E. coli MraY revealed two possible binding sites close to helix 9, the binding site for protein E. Antimicrobial activity of analogue 6j was found to be synergistic with bacitracin in Micrococcus flavus, consistent with a link between this inhibition site and undecaprenyl phosphate uptake. Alkaloid michellamine B, also predicted to bind in the cleft adjacent to helix 9, was also found to be synergistic with bacitracin. These data provide experimental evidence that the unusual hydrophobic cleft adjacent to helix 9 in MraY is involved in uptake of undecaprenyl phosphate, in addition to recently identified transporters UptA and PopT, and that this process can be targeted by small molecules as a novel antibacterial mechanism.
期刊介绍:
Research and review articles in medicinal chemistry and related drug discovery science; the official journal of the European Federation for Medicinal Chemistry.
In 2020, MedChemComm will change its name to RSC Medicinal Chemistry. Issue 12, 2019 will be the last issue as MedChemComm.
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