A high-throughput assay identifies molecules with antimicrobial activity against persister cells.

Maiken Engelbrecht Petersen, Liva Kjær Hansen, Alexander Alexandrovich Mitkin, Nicholas M Kelly, Thomas Keith Wood, Nis Pedersen Jørgensen, Lars Jørgen Østergaard, Rikke Louise Meyer
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Abstract

Introduction. Persister cells are transiently non-growing antibiotic-tolerant bacteria that cause infection relapse, and there is no effective antibiotic therapy to tackle these infections.Gap statement. High-throughput assays in drug discovery are biased towards detecting drugs that inhibit bacterial growth rather than killing non-growing bacteria. A new and simple assay to discover such drugs is needed.Aim. This study aims to develop a simple and high-throughput assay to identify compounds with antimicrobial activity against persister cells and use it to identify molecular motifs with such activity.Methodology. We quantified Staphylococcus aureus persister cells by enumeration of colony forming units after 24 h ciprofloxacin treatment. We first quantified how the cell concentration, antibiotic concentration, growth phase and presence/absence of nutrients during antibiotic exposure affected the fraction of persister cells in a population. After optimizing these parameters, we screened the antimicrobial activity of compound fragments to identify molecular structures that have activity against persister cells.Results. Exponential- and stationary-phase cultures transferred to nutrient-rich media displayed a bi-phasic time-kill curve and contained 0.001-0.07% persister cells. A short rifampicin treatment resulted in 100% persister cells for 7 h, after which cells resumed activity and became susceptible. Stationary-phase cultures displayed a low but constant death rate but ultimately resulted in similarly low survival rates as the exponential-phase cultures after 24 h ciprofloxacin treatment. The persister phenotype was only maintained in most of the population for 24 h if cells were transferred to a carbon-free minimal medium before exposure to ciprofloxacin. Keeping cells starved enabled the generation of high concentrations of S. aureus cells that tolerate 50× MIC ciprofloxacin, and we used this protocol for rapid screening for biocidal antibiotics. We identified seven compounds from four structural clusters with activity against antibiotic-tolerant S. aureus. Two compounds were moderately cytotoxic, and the rest were highly cytotoxic.Conclusion. Transferring a stationary-phase culture to a carbon-free minimal medium for antimicrobial testing is a simple strategy for high-throughput screening for new antibiotics that kill persister cells. We identified molecule fragments with such activity, but further screening is needed to identify motifs with lower general cytotoxicity.

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一种高通量检测方法可确定对顽固细胞具有抗菌活性的分子。
简介。顽固细胞是暂时不生长的抗生素耐受性细菌,会导致感染复发,目前还没有有效的抗生素疗法来解决这些感染问题。药物发现中的高通量检测偏重于检测抑制细菌生长的药物,而不是杀死不生长的细菌。我们需要一种新的、简单的检测方法来发现这类药物。本研究旨在开发一种简单、高通量的检测方法,以确定对顽固细胞具有抗菌活性的化合物,并利用这种方法确定具有这种活性的分子基团。我们通过枚举环丙沙星处理 24 小时后的菌落形成单位来量化金黄色葡萄球菌顽固细胞。我们首先量化了细胞浓度、抗生素浓度、生长阶段以及抗生素暴露期间有无营养物质对群体中顽固细胞比例的影响。在优化这些参数后,我们筛选了化合物片段的抗菌活性,以确定对持久性细胞有活性的分子结构。转入富营养培养基的指数期和静止期培养物显示出双相时间杀伤曲线,含有 0.001-0.07% 的顽固细胞。利福平短时间处理 7 小时后,100% 的固着细胞恢复活性并变得易感。静止期培养物显示出较低但稳定的死亡率,但经过 24 小时环丙沙星处理后,最终存活率与指数期培养物类似低。如果在接触环丙沙星之前将细胞转移到无碳的最小培养基中,则大部分群体中的宿主表型只能维持 24 小时。让细胞处于饥饿状态能产生高浓度的金黄色葡萄球菌细胞,这些细胞能耐受 50 倍 MIC 的环丙沙星。我们从四个结构簇中发现了七个对耐受抗生素的金黄色葡萄球菌具有活性的化合物。两个化合物具有中度细胞毒性,其余化合物具有高度细胞毒性。将静止期培养物转移到无碳最小培养基中进行抗菌测试,是高通量筛选能杀死顽固细胞的新抗生素的一种简单策略。我们发现了具有这种活性的分子片段,但还需要进一步筛选,以确定具有较低一般细胞毒性的基团。
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