Genomic epidemiology of ESBL-producingEscherichia colifrom humans and an Aotearoa New Zealand river

Abstract

AbstractIn Aotearoa New Zealand, urinary tract infections in humans are commonly caused by extended-spectrum beta-lactamase (ESBL)-producingEscherichia coli. This group of antimicrobial resistant bacteria are often multidrug resistant. However, there is limited information on ESBL-producingE. colifound in the environment and their link with human clinical isolates. In this study, we examined the genetic relationship of environmental and human clinical ESBL-producingE. coliand isolates collected in parallel within the same area over 14 months. Environmental samples were collected from treated effluent, stormwater and multiple locations along an Aotearoa New Zealand river. Treated effluent, stormwater and river water sourced downstream of the treated outflow point were the main sources of ESBL-producingE. coli(7/14 samples, 50.0%; 3/6 samples, 50%; and 15/28 samples, 54% respectively). Whole genome sequence comparison was carried out on 307 human clinical and 45 environmental ESBL-producingE. coliisolates. Sequence type 131 was dominant for both clinical (147/307, 47.9%) and environmental isolates (11/45, 24.4%). The most prevalent ESBL genes were bothblaCTX-M-27andblaCTX-M-15for the clinical isolates (134/307, 43.6%) andblaCTX-M-15for the environmental isolates (28/45, 62.2%). A core single nucleotide polymorphism analysis of these isolates suggested that some strains were shared between humans and the local river. These results highlight the importance of understanding different transmission pathways for the spread of ESBL-producingE. coli.2. Impact statementExtended spectrum beta lactamase (ESBL)-producingE. colifrequently cause urinary tract infections that exhibit multidrug resistance. Surveillance studies have identified the predominant strains and resistance genes associated with urinary tract infections. However, there is limited information on the extent of spread beyond the patient. We describe the genetic relatedness of ESBL-producing environmental and clinicalE. coliisolated during the same temporal-spatial period in Aotearoa New Zealand. Comparative genomic analyses of these bacteria provide evidence of clonal spread between humans and the environment, highlighting the need to integrate environmental surveillance into antimicrobial resistance monitoring.3. Data summaryAll Illumina sequence reads for this study have been deposited in GenBank under BioProject PRJNA1032159, except for strain SB0283h1, whose data can be found under BioProject PRJNA715472. The sequence read accessions for each genome are provided in the supplementary material.The code used for the genomic and statistical analyses is available from the GitHub repositoryhttps://github.com/sburgess1/Manawat-_ESBL.The authors confirm all supporting data and protocols have been provided within the article or through supplementary data files.