Rationally designed foldameric adjuvants enhance antibiotic efficacy via promoting membrane hyperpolarization

Bhaumik Kaushik Nath; Hetényi Anasztázia; Olajos GáborMartins AnaSpohn RékaNémeth LukácsJojart BalázsSzili PetraDunai AnettJangir Pramod K.Daruka LejlaFöldesi ImreKata DiánaPál CsabaMartinek Tamás A.

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Rationally designed foldameric adjuvants enhance antibiotic efficacy via promoting membrane hyperpolarization

机译：合理设计foldameric佐剂增强通过促进膜抗菌功效超极化

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The negative membrane potential of bacterial cells influences crucial cellular processes. Inspired by the molecular scaffold of the antimicrobial peptide PGLa, we have developed antimicrobial foldamers with a computer-guided design strategy. The novel PGLa analogues induce sustained membrane hyperpolarization. When co-administered as an adjuvant, the resulting compounds – PGLb1 and PGLb2 – have substantially reduced the level of antibiotic resistance of multi-drug resistant Escherichia coli, Klebsiella pneumoniae and Shigella flexneri clinical isolates. The observed antibiotic potentiation was mediated by hyperpolarization of the bacterial membrane caused by the alteration of cellular ion transport. Specifically, PGLb1 and PGLb2 are selective ionophores that enhance the Goldman–Hodgkin–Katz potential across the bacterial membrane. These findings indicate that manipulating bacterial membrane electrophysiology could be a valuable tool to overcome antimicrobial resistance.

机译：消极的细菌细胞的膜电位影响至关重要的细胞过程。由分子抗菌的脚手架肽PGLa,我们开发了抗菌foldamers辅助设计策略。这部小说PGLa类似物诱导持续膜超极化。作为一个辅助,由此产生的化合物——PGLb1和PGLb2——水平大大降低耐多药的抗生素耐药性大肠杆菌、肺炎克雷伯菌和弗氏志贺菌临床分离株。抗生素是由强化细菌膜的超极化变更引起的细胞离子交通工具。选择性离子载体,增强Goldman-Hodgkin-Katz潜力在细菌膜。操纵细菌膜电生理学可能是一个有用的工具来克服抗菌素耐药性。

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来源
《Molecular Systems Design & Engineering》 |2022年第1期|21-33|共13页
作者
Bhaumik Kaushik Nath; Hetényi Anasztázia; Olajos GáborMartins AnaSpohn RékaNémeth LukácsJojart BalázsSzili PetraDunai AnettJangir Pramod K.Daruka LejlaFöldesi ImreKata DiánaPál CsabaMartinek Tamás A.;
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作者单位

Eötvös Loránd Research Network (ELKH);

University of Szeged;

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原文格式 PDF
正文语种英语
中图分类 Online;
关键词
hyperpolarization; Antimicrobial Drug Resistance; Antibiotic Resistance, Microbialmolecular scaffoldmembraneShigella flexneriCellular processesAntibioticMembrane Potentials;

机译：超极化;抗菌药物电阻;抗生素耐药性,Microbialmolecular scaffoldmembraneShigellaflexneriCellular processesAntibioticMembrane势;

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Rationally designed foldameric adjuvants enhance antibiotic efficacy via promoting membrane hyperpolarization

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