From clinics to sewers: leveraging environmental surveillance and whole genome sequencing to inform transmission of ESBL- Escherichia coli in Switzerland

Extended-spectrum β-lactamase (ESBL)-producing Escherichia coli is a major antimicrobial resistance concern spreading across human, animal, and environmental domains. To assess between-source transitions, we analysed 762 ESBL- E. coli genomes collected from wastewater (used as a community shedding indicator), clinical settings, cattle, and wildlife across Switzerland (2021–2023). ST131 was the most prevalent sequence type (ST), and 76% of isolates carried resistance to at least two antibiotic classes in addition to β-lactams. Phylogenetic analysis showed isolates were interspersed across sources, yet genetically similar strains were more common within compartments. Clonal isolates (0 SNPs) were rarely shared (n = 2) between wastewater and corresponding clinics. Ancestral state reconstruction revealed compartmentalization of isolates between wastewater and clinics across the whole phylogeny. However, this pattern disappears within human-associated ST131, ST69, ST1193, highlighting exchange between clinics and communities. These findings show that wastewater surveillance captures community circulation of ESBL- E. coli, which overlap with circulating clinically-relevant strains.