Transmission, adaptation and geographical spread of the Pseudomonas aeruginosa Liverpool epidemic strain.

Matthew P Moore ,Julie Jeukens ,Nicholas P Tucker ,Iréna Kukavica-Ibrulj ,Iain L Lamont ,Nicholas J Loman ,Susan Manzoor ,Jane F Turton ,David Williams ,Luca Freschi ,Bryan A Wee ,Kevin W Southern ,Steve Paterson ,Roger C Lévesque ,D Kenna ,Joanne L Fothergill ,Stephen Holden ,Peter M Hawkey ,Martin Walshaw ,Craig Winstanley

doi:10.1099/mgen.0.000511

Abstract

The Liverpool epidemic strain (LES) is an important transmissible clonal lineage of Pseudomonas aeruginosa that chronically infects the lungs of people with cystic fibrosis (CF). Previous studies have focused on the genomics of the LES in a limited number of isolates, mostly from one CF centre in the UK, and from studies highlighting identification of the LES in Canada. Here we significantly extend the current LES genome database by genome sequencing 91 isolates from multiple CF centres across the UK, and we describe the comparative genomics of this large collection of LES isolates from the UK and Canada. Phylogenetic analysis revealed that the 145 LES genomes analysed formed a distinct clonal lineage when compared with the wider P. aeruginosa population. Notably, the isolates formed two clades: one associated with isolates from Canada, and the other associated with UK isolates. Further analysis of the UK LES isolates revealed clustering by clinic geography. Where isolates clustered closely together, the association was often supported by clinical data linking isolates or patients. When compared with the earliest known isolate, LESB58 (from 1988), many UK LES isolates shared common loss-of-function mutations, such as in genes gltR and fleR. Other loss-of-function mutations identified in previous studies as common adaptations during CF chronic lung infections were also identified in multiple LES isolates. Analysis of the LES accessory genome (including genomic islands and prophages) revealed variations in the carriage of large genomic regions, with some evidence for shared genomic island/prophage complement according to clinic location. Our study reveals divergence and adaptation during the spread of the LES, within the UK and between continents.

Highlights

Chronic lung infections with the versatile pathogen Pseudomonas aeruginosa remain the major cause of morbidity and mortality associated with cystic fibrosis (CF)
The newly sequenced genomes were primarily isolated from CF patients, and included some isolates from primary ciliary dyskinesia (PCD) patients, a pet cat (OSIRIS) [63], non-CF bronchiectasis patients, a blood isolate (PHELES19) and the non-C F parents of a CF patient [14]
The Liverpool epidemic strain (LES) genomes form a distinct lineage amongst the wider P. aeruginosa population

Summary

Introduction

Chronic lung infections with the versatile pathogen Pseudomonas aeruginosa remain the major cause of morbidity and mortality associated with cystic fibrosis (CF). It has become clear that specialist clones of P. aeruginosa capable of patient-to-p atient transmission exist [2, 3], leading to over- representation amongst isolates from CF. The occurrence of such strains presents additional challenges in terms of patient care, but their identification does enable steps to be taken to minimize transmission amongst patients [4]. The strain has been reported as causing pleural empyema in a CF patient [16] and has been isolated from patients with primary ciliary dyskinesia and non-C F bronchiectasis (unpublished data)

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