Comparative Genomics of Human- and Wastewater-Derived CPE Isolates in The Netherlands Reveals Shared and Complementary Characteristics
Blaak, Hetty Witteveen, Sandra de Haan, Angela de van Santen-Verheuvel, Marga G Kemper, Merel A de Roda Husman, Ana Maria Hendrickx, Antoni PA Schmitt, Heike
Blaak, Hetty
Witteveen, Sandra
de Haan, Angela de
van Santen-Verheuvel, Marga G
Kemper, Merel A
de Roda Husman, Ana Maria
Hendrickx, Antoni PA
Schmitt, Heike
Series / Report no.
Open Access
Type
Journal Article
Article
Article
Language
en
Date of publication
2025-12-20
Year of publication
Research Projects
Organizational Units
Journal Issue
Title
Comparative Genomics of Human- and Wastewater-Derived CPE Isolates in The Netherlands Reveals Shared and Complementary Characteristics
Translated Title
Published in
Microorganisms 2025; 14(1):16
Abstract
Wastewater-based surveillance is gaining interest worldwide as a complementary tool informing human surveillance of pathogens, among which are antibiotic-resistant bacteria. The current study investigated whether CPE detected within the Dutch human CPE surveillance could be identified among isolates that were independently retrieved from Dutch wastewater. Whole genomes of 203 wastewater- and 1278 human-retrieved isolates were compared using whole-genome multilocus sequence typing (wgMLST), resistome, and plasmid analyses. Overall, 25 clusters (16 , 9 ) with genetically highly related variants from both niches were detected. The maximum allelic difference between human- and wastewater-derived isolates in clusters was on average 0.51% (23/4503 alleles, ) and 0.22% (11/4978 alleles ). For seven clusters, in-depth plasmid analysis was performed, showing highly homologous (87-100%) carbapenemase-containing plasmids from human- and wastewater-retrieved isolates. Six clusters contained wastewater and human isolates that were spatiotemporally related. The sequence identity at chromosomal and plasmid level confirms the presence of human-associated CPE variants in wastewater. Ongoing comparisons between isolates from the national human CPE surveillance and wastewater surveillance will shed more light on the added value of wastewater-based surveillance for monitoring of CPE and other (emerging) antibiotic resistances.