Institute of Biochemistry and Genetics Russian Academy of Science (IBG RAS) Ufa Scientific Centre, Oktyabrya Prospekt 71, Ufa, Russian Federation, 450054.
Moscow Institute of Physics and Technology (State University), 9 Institutskiy Lane, Dolgoprudny City, Moscow Region, Russian Federation, 141700.
Mol Divers. 2020 Feb;24(1):233-239. doi: 10.1007/s11030-019-09946-3. Epub 2019 Apr 4.
A series of 5-oxo-4H-pyrrolo[3,2-b]pyridine derivatives was identified as novel class of highly potent antibacterial agents during an extensive large-scale high-throughput screening (HTS) program utilizing a unique double-reporter system-pDualrep2. The construction of the reporter system allows us to perform visual inspection of the underlying mechanism of action due to two genes-Katushka2S and RFP-which encode the proteins with different imaging signatures. Antibacterial activity of the compounds was evaluated during the initial HTS round and subsequent rescreen procedure. The most active molecule demonstrated a MIC value of 3.35 µg/mL against E. coli with some signs of translation blockage (low Katushka2S signal) and no SOS response. The compound did not demonstrate cytotoxicity in standard cell viability assay. Subsequent structural morphing and follow-up synthesis may result in novel compounds with a meaningful antibacterial potency which can be reasonably regarded as an attractive starting point for further in vivo investigation and optimization.
在利用独特的双报告系统-pDualrep2 进行的广泛的高通量筛选 (HTS) 计划中,发现了一系列 5-氧代-4H-吡咯并[3,2-b]吡啶衍生物,这是一类新型的高活性抗菌剂。报告系统的构建使我们能够由于两个基因-Katushka2S 和 RFP-编码具有不同成像特征的蛋白质,因此可以进行作用机制的直观检查。在初始 HTS 轮和随后的重新筛选过程中评估了化合物的抗菌活性。最活跃的分子对大肠杆菌表现出 3.35 µg/mL 的 MIC 值,并且具有翻译阻断(Katushka2S 信号低)和无 SOS 反应的迹象。该化合物在标准细胞活力测定中没有显示细胞毒性。随后的结构变形和后续合成可能会产生具有有意义的抗菌效力的新型化合物,这可以合理地被视为进一步体内研究和优化的有吸引力的起点。
