Fitness cost of a mcr-1-carrying IncHI2 plasmid

Ke Ma,Zhiyong Zong,Yu Feng,Günther Koraimann

doi:10.1371/journal.pone.0209706

Ke Ma, Zhiyong Zong + Show 2 more

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https://doi.org/10.1371/journal.pone.0209706

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Abstract

IncHI2 is a common type of large mcr-1-carrying plasmids that have been found worldwide. Large plasmids could impose metabolic burden for host bacterial strains, we therefore examine the stability and fitness cost of a mcr-1-carrying 265.5-kb IncHI2 plasmid, pMCR1_1943, in Escherichia coli in nutrient-rich LB and nutrient-restricted M9 broth. Stability tests revealed that pMCR1_1943 was stably maintained with a stability frequency of 0.99±0.01 (mean ± standard deviation) after 880 generations in LB and 0.97±0.00 after 220 generations in M9 broth. Relative fitness (expressed as w, defined as relative fitness of the plasmid-carrying strain compared to the plasmid-free progenitor strain) was examined using the 24-h head to head competitions. pMCR1_1943 initially imposed costs (w, 0.88±0.03 in LB, 0.87±0.01 in M9) but such costs were largely reduced after 14-day cultures (w, 0.97±0.03 in LB, 0.95±0.03 in M9). The stable maintenance and the largely compensated cost after passage may contribute to the wide spread of mcr-1-carrying IncHI2 plasmids. To investigate potential mechanisms for the reduced fitness cost, we performed whole genome sequencing and single nucleotide polymorphism calling for the competitor strains. We identified that molecular chaperone-encoding dnaK, cell division protein-encoding cpoB and repeat protein-encoding rhsC were associated with the cost reduction for pMCR1_1943, which may represent new mechanisms for host bacterial strains to compensate fitness costs imposed by large plasmids and warrant further studies.

Highlights

Colistin is the last resort of antimicrobial agents against most Gram-negative bacteria but colistin-resistant strains have emerged worldwide as a critical threat for clinical management and public health [1]
Colistin resistance can be mediated by the modifications of chromosomal genes or plasmid-borne mechanisms. mcr-1 is the first reported plasmid-borne colistin resistance gene and mediates resistance to colistin by modifying the 4’-phosphoethanolamine of the lipid A on lipopolysaccharide [2]. mcr-1-carrying colistin-resistant strains have been identified in many countries, representing a global problem [3, 4]. mcr-1 is commonly carried by plasmids of various replicon types, among which IncHI2 is relatively common [4, 5]
E. coli strains are usually carried by hosts for long time and we examined the impact of 14-day cultures on fitness costs by preforming two types of 24-h head to head competitions

Summary

Introduction

Colistin is the last resort of antimicrobial agents against most Gram-negative bacteria but colistin-resistant strains have emerged worldwide as a critical threat for clinical management and public health [1]. Colistin resistance can be mediated by the modifications of chromosomal genes or plasmid-borne mechanisms. Mcr-1 is the first reported plasmid-borne colistin resistance gene and mediates resistance to colistin by modifying the 4’-phosphoethanolamine of the lipid A on lipopolysaccharide [2]. Mcr-1-carrying colistin-resistant strains have been identified in many countries, representing a global problem [3, 4]. Mcr-1 is commonly carried by plasmids of various replicon types, among which IncHI2 is relatively common [4, 5]. IncHI2 plasmids are large in size, typically > 200 kb.

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