Urban Wildlife Crisis: Australian Silver Gull Is a Bystander Host to Widespread Clinical Antibiotic Resistance

Ethan R Wyrsch; Kristina Nesporova; Hassan Tarabai; Ivana Jamborova; Ibrahim Bitar; Ivan Literak; Monika Dolejska; Steven P Djordjevic

doi:10.1128/msystems.00158-22

Urban Wildlife Crisis: Australian Silver Gull Is a Bystander Host to Widespread Clinical Antibiotic Resistance

mSystems. 2022 Jun 28;7(3):e0015822. doi: 10.1128/msystems.00158-22. Epub 2022 Apr 26.

Authors

Ethan R Wyrsch¹, Kristina Nesporova^{2

3}, Hassan Tarabai², Ivana Jamborova², Ibrahim Bitar⁴, Ivan Literak^{2

3}, Monika Dolejska^{2

3

4

5}, Steven P Djordjevic¹

Affiliations

¹ Australian Institute for Microbiology & Infection, University of Technology Sydney, Ultimo, New South Wales, Australia.
² CEITEC VETUNI, University of Veterinary Sciences Brno, Brno, Czech Republic.
³ Department of Biology and Wildlife Diseases, Faculty of Veterinary Hygiene and Ecology, University of Veterinary Sciences Brno, Brno, Czech Republic.
⁴ Faculty of Medicine, Biomedical Center, Charles Universitygrid.4491.8, Pilsen, Czech Republic.
⁵ Department of Clinical Microbiology and Immunology, Institute of Laboratory Medicine, The University Hospital Brno, Brno, Czech Republic.

Abstract

The Australian silver gull is an urban-adapted species that frequents anthropogenic waste sites. The enterobacterial flora of synanthropic birds often carries antibiotic resistance genes. Whole-genome sequence analyses of 425 Escherichia coli isolates from cloacal swabs of chicks inhabiting three coastal sites in New South Wales, Australia, cultured on media supplemented with meropenem, cefotaxime, or ciprofloxacin are reported. Phylogenetically, over 170 antibiotic-resistant lineages from 96 sequence types (STs) representing all major phylogroups were identified. Remarkably, 25 STs hosted the carbapenemase gene bla_IMP-4, sourced only from Five Islands. Class 1 integrons carrying bla_IMP and bla_OXA alongside bla_CTX-M and qnrS were notable. Multiple plasmid types mobilized bla_IMP-4 and bla_OXA-1, and 121 isolates (28%) carried either a ColV-like (18%) or a pUTI89-like (10%) F virulence plasmid. Phylogenetic comparisons to human isolates provided evidence of interspecies transmission. Our study underscores the importance of bystander species in the transmission of antibiotic-resistant and pathogenic E. coli. IMPORTANCE By compiling various genomic and phenotypic data sets, we have provided one of the most comprehensive genomic studies of Escherichia coli isolates from the Australian silver gull, on media containing clinically relevant antibiotics. The analysis of genetic structures capturing antimicrobial resistance genes across three gull breeding colonies in New South Wales, Australia, and comparisons to clinical data have revealed a range of trackable genetic signatures that highlight the broad distribution of clinical antimicrobial resistance in more than 170 different lineages of E. coli. Conserved truncation sizes of the class 1 integrase gene, a key component of multiple-drug resistance structures in the Enterobacteriaceae, represent unique deletion events that are helping to link seemingly disparate isolates and highlight epidemiologically relevant data between wildlife and clinical sources. Notably, only the most anthropogenically affected of the three sites (Five Islands) was observed to host carbapenem resistance, indicating a potential reservoir among the sites sampled.

Keywords: AMR; Escherichia coli; genomics; wildlife.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Animals
Animals, Wild
Anti-Bacterial Agents / pharmacology
Anti-Infective Agents*
Australia / epidemiology
Charadriiformes* / microbiology
Drug Resistance, Microbial
Enterobacteriaceae
Escherichia coli / genetics
Humans
Phylogeny

Substances

Anti-Bacterial Agents
Anti-Infective Agents