Evolved resistance to a novel cationic peptide antibiotic requires high mutation supply.

IF 3.3 3区 医学 Q2 EVOLUTIONARY BIOLOGY
Evolution, Medicine, and Public Health Pub Date : 2022-05-30 eCollection Date: 2022-01-01 DOI:10.1093/emph/eoac022
Alfonso Santos-Lopez, Melissa J Fritz, Jeffrey B Lombardo, Ansen H P Burr, Victoria A Heinrich, Christopher W Marshall, Vaughn S Cooper
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Abstract

Background and objectives: A key strategy for resolving the antibiotic resistance crisis is the development of new drugs with antimicrobial properties. The engineered cationic antimicrobial peptide WLBU2 (also known as PLG0206) is a promising broad-spectrum antimicrobial compound that has completed Phase I clinical studies. It has activity against Gram-negative and Gram-positive bacteria including infections associated with biofilm. No definitive mechanisms of resistance to WLBU2 have been identified.

Methodology: Here, we used experimental evolution under different levels of mutation supply and whole genome sequencing (WGS) to detect the genetic pathways and probable mechanisms of resistance to this peptide. We propagated populations of wild-type and hypermutator Pseudomonas aeruginosa in the presence of WLBU2 and performed WGS of evolved populations and clones.

Results: Populations that survived WLBU2 treatment acquired a minimum of two mutations, making the acquisition of resistance more difficult than for most antibiotics, which can be tolerated by mutation of a single target. Major targets of resistance to WLBU2 included the orfN and pmrB genes, previously described to confer resistance to other cationic peptides. More surprisingly, mutations that increase aggregation such as the wsp pathway were also selected despite the ability of WLBU2 to kill cells growing in a biofilm.

Conclusions and implications: The results show how experimental evolution and WGS can identify genetic targets and actions of new antimicrobial compounds and predict pathways to resistance of new antibiotics in clinical practice.

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对一种新型阳离子肽抗生素产生耐药性需要高突变供应。
背景和目的:解决抗生素耐药性危机的关键策略是开发具有抗菌特性的新药。工程阳离子抗菌肽WLBU2(也称为PLG0206)是一种很有前途的广谱抗菌化合物,已完成I期临床研究。它对革兰氏阴性菌和革兰氏阳性菌具有活性,包括与生物膜相关的感染。目前尚未确定对WLBU2产生耐药性的确切机制。方法:在这里,我们使用不同突变供应水平下的实验进化和全基因组测序(WGS)来检测对该肽的遗传途径和可能的抗性机制。我们在WLBU2存在下繁殖野生型和高突变铜绿假单胞菌种群,并对进化的种群和克隆进行WGS。结果:WLBU2治疗后存活的人群获得了至少两个突变,这使得获得耐药性比大多数抗生素更困难,而大多数抗生素可以通过单个靶点的突变来耐受。对WLBU2抗性的主要靶标包括orfN和pmrB基因,它们先前被描述为赋予对其他阳离子肽的抗性。更令人惊讶的是,尽管WLBU2有能力杀死在生物膜中生长的细胞,但也选择了增加聚集的突变,如wsp途径。结论和意义:研究结果表明,在临床实践中,实验进化和WGS可以识别新的抗菌化合物的遗传靶标和作用,并预测新抗生素的耐药性途径。
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来源期刊
Evolution, Medicine, and Public Health
Evolution, Medicine, and Public Health Environmental Science-Health, Toxicology and Mutagenesis
CiteScore
5.40
自引率
2.70%
发文量
37
审稿时长
8 weeks
期刊介绍: About the Journal Founded by Stephen Stearns in 2013, Evolution, Medicine, and Public Health is an open access journal that publishes original, rigorous applications of evolutionary science to issues in medicine and public health. It aims to connect evolutionary biology with the health sciences to produce insights that may reduce suffering and save lives. Because evolutionary biology is a basic science that reaches across many disciplines, this journal is open to contributions on a broad range of topics.
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