1. Synthesis and Bioactivity Evaluation of N-Arylsulfonylindole Analogs Bearing a Rhodanine Moiety as Antibacterial Agents
- Author
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Shao-Feng Xiong, Jiao-Yang Peng, Wen-Hui Xu, Song-Hui Li, Xian-Qing Deng, Ming-Xia Song, and Ting-Ting Guo
- Subjects
0301 basic medicine ,Indoles ,Stereochemistry ,medicine.drug_class ,Antibiotics ,Pharmaceutical Science ,Microbial Sensitivity Tests ,01 natural sciences ,Article ,Analytical Chemistry ,lcsh:QD241-441 ,Structure-Activity Relationship ,03 medical and health sciences ,chemistry.chemical_compound ,Antibiotic resistance ,antibacterial activity ,lcsh:Organic chemistry ,rhodanine ,Drug Discovery ,Escherichia coli ,medicine ,Humans ,Arylsulfonic Acids ,Physical and Theoretical Chemistry ,Norfloxacin ,N-arylsulfonylindole ,propanoic acid ,010405 organic chemistry ,Organic Chemistry ,Antimicrobial ,Combinatorial chemistry ,Gatifloxacin ,Anti-Bacterial Agents ,0104 chemical sciences ,Penicillin ,030104 developmental biology ,Rhodanine ,chemistry ,Chemistry (miscellaneous) ,Molecular Medicine ,Antibacterial activity ,medicine.drug - Abstract
Due to the rapidly growing bacterial resistance to antibiotics and the scarcity of novel agents under development, bacterial infections are still a pressing global problem, making new types of antibacterial agents, which are effective both alone and in combination with traditional antibiotics, urgently needed. In this paper, seven series of N-arylsulfonylindole analogs 5–11 bearing rhodanine moieties were synthesized, characterized, and evaluated for antibacterial activity. According to the in vitro antimicrobial results, half of the synthesized compounds showed potent inhibition against four Gram-positive bacteria, with MIC values in the range of 0.5–8 µg/mL. For multidrug-resistant strains, compounds 6a and 6c were the most potent, with MIC values of 0.5 µg/mL, having comparable activity to gatifloxacin, moxiflocaxin and norfloxacin and being 128-fold more potent than oxacillin (MIC = 64 µg/mL) and 64-fold more active than penicillin (MIC = 32 µg/mL) against Staphylococcus aureus ATCC 43300.
- Published
- 2017
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