Bacterial efflux pump inhibitors.

Barbara J Kamicker, Michael T Sweeney, Frank Kaczmarek, Fadia Dib-Hajj, Wenchi Shang, Kim Crimin, Joan Duignan, Thomas D Gootz
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引用次数: 31

Abstract

Infections caused by multidrug-resistant Gram-negative pathogens play a major role in the morbidity and mortality of hospitalized patients. The rise of resistance to current antibiotic therapies has made the discovery of new agents urgent. One of the major antibiotic resistance mechanisms utilized by more than 15 species of Gram-negative bacterial cells is the Resistance Nodulation Division (RND) efflux pump, which eliminates several classes of antibiotics such as penicillins and cephalosporin macrolides aminoglycosides, fluoroquinolonesx and tetracyclines. Here we describe a multistep process to identify compounds that inhibit the RND-type efflux pumps. This involves measuring the inhibition of accumulation of ethidium bromide in E. coli or Haemophilus influenzae cells and confirming that the inhibition is specific for the efflux pumps by using genetic constructs and biochemical methods to measure nonspecific inhibition due to e.g. intrinsic antibacterial activity or membrane disruption. In whole bacterial cells synergism antagonism or indifference of the combination of an antibiotic with the putative inhibitor is determined and this is then confirmed by quantitating viable bacterial cells in liquid culture over 24 h.

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细菌外排泵抑制剂。
耐多药革兰氏阴性病原体引起的感染在住院患者的发病率和死亡率中起着重要作用。对当前抗生素疗法的耐药性的增加使得发现新的药物迫在眉睫。超过15种革兰氏阴性细菌细胞利用的主要抗生素耐药机制之一是耐药结瘤分裂(RND)外排泵,它消除了几类抗生素,如青霉素类和大环内酯类头孢菌素氨基糖苷类、氟喹诺酮类和四环素类。在这里,我们描述了一个多步骤的过程,以确定抑制rnd型外排泵的化合物。这包括测量溴化乙锭在大肠杆菌或流感嗜血杆菌细胞中积累的抑制作用,并通过使用遗传结构和生化方法来测量由于固有抗菌活性或膜破坏等原因引起的非特异性抑制作用,从而确认这种抑制作用对外排泵是特异性的。在整个细菌细胞中,确定抗生素与假定抑制剂的组合的协同作用,拮抗或无差异,然后通过定量液体培养24小时以上的活菌细胞来证实这一点。
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