抗菌剂
生物膜
化学
金黄色葡萄球菌
细胞毒性
细菌
抗生素
微生物学
抗菌肽
抗生素耐药性
组合化学
抗药性
阳离子聚合
肽
药品
耐甲氧西林金黄色葡萄球菌
选择性
体外
生物化学
药理学
生物
有机化学
催化作用
遗传学
作者
Qunshou Kong,Gaocan Li,Fanjun Zhang,Tao Yu,Xiaotong Chen,Qing Jiang,Yunbing Wang
标识
DOI:10.1021/acs.jmedchem.2c00818
摘要
Antibiotic resistance has become one of the greatest health threats in the world. In this study, a charge-dispersed dimerization strategy is described for the antimicrobial peptide (AMP) mimics via a tunable cationic charge to improve the selectivity between prokaryotic microbes and eukaryotic cells. This strategy is demonstrated with a series of charge-dispersed AMP mimics based on N-arylimidazolium skeletons. These N-arylimidazolium AMP mimics show potent antibacterial activity against strains along with a low rate of drug resistance, good hemocompatibility, and low cytotoxicity. In addition to the elimination of planktonic bacteria, N-arylimidazolium AMP mimics can also inhibit biofilm formation and destroy the established biofilm. More importantly, methicillin-resistant Staphylococcus aureus (MRSA)-induced lung-infected mice can be effectively treated by the intravenous administration of N-arylimidazolium AMP mimic, which enable the design of N-arylimidazolium AMP mimics to offer an alternative avenue to eradicate drug-resistant bacterial infection.
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