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The transferable resistome of biosolids—plasmid sequencing reveals carriage of clinically relevant antibiotic resistance genes

Kristin Hauschild, Masato Suzuki, Birgit Wolters, Maho Tokuda, Ryo Yamazaki, Megumi Masumoto, Ryota Moriuchi, Hideo Dohra, Boyke Bunk, Cathrin Spröer, Masaki Shintani, Kornelia Smalla

2025mBio8 citationsDOIOpen Access PDF

Abstract

ABSTRACT Biosolids, widely used as organic fertilizers due to their high nutrient content, are significant reservoirs for antimicrobial-resistant bacteria (ARB) carrying transferable antimicrobial resistance genes (ARGs). This study investigated the transferability of ARG-containing plasmids of bacteria from biosolids originating from 12 German wastewater treatment plants (WWTPs) of varying sizes. Using exogenous plasmid captures with the recipient strain Escherichia coli CV601 gfp +, we collected 103 plasmids from 11 WWTPs. Characterization through DNA-based methods, including real-time PCR and Southern blot hybridization, revealed that the highest proportion of transconjugants harbored IncP (57%) and IncN (20%) plasmids. Complete sequencing of representative plasmids identified IncPβ, IncPε, IncQ2, IncN, and IncU plasmids carrying ARGs linked to mobile genetic elements (MGEs), including class 1 integrons, transposons, and IS elements (e.g., Tn 402 , IS 26 , and IS 6100 ). These ARG-MGE complexes were integrated into specific plasmid regions, and similar plasmids were found across WWTPs and diverse geographic locations. The results underscore the role of WWTPs as hotspots for horizontal gene transfer, with biosolids serving as reservoirs for multi-resistant bacteria and resistance plasmids. This highlights the urgent need for improved biosolid management strategies to mitigate the release of ARGs and ARB into agricultural environments. IMPORTANCE This study emphasizes the critical role of wastewater treatment plants (WWTPs) in facilitating the horizontal transfer of ARGs through biosolids. As biosolids are routinely applied to agricultural soils, their load of clinically relevant ARG content and transferability pose risks to animal and human health through plant-associated bacteria or surface water. By identifying conserved ARG-MGE associations across diverse plasmid types and WWTPs, this work highlights the global and persistent nature of resistance dissemination. These findings underscore the urgent need for sustainable management practices to limit the spread of antimicrobial-resistant bacteria (ARB) and associated ARGs in agricultural ecosystems. Ensuring safe biosolid use will contribute to combating antimicrobial resistance gene connectivity from environmental to human- or animal-associated bacteria globally.

Topics & Concepts

ResistomeBiosolidsAntibiotic resistanceHorizontal gene transferBiologyBacteriaTransferabilityBiotechnologyMetagenomicsCarriagePlasmidOne HealthGeneMicrobiologyAntibioticsAgricultureGeneticsResistance (ecology)Mobile genetic elementsBiobankHuman healthBacterial geneticsGene transferPathogenic bacteriaHuman pathogenGenomicsGenomeDrug resistanceLimitingComputational biologyMicroorganismPublic healthMicrobiomeMutagenesisPharmaceutical and Antibiotic Environmental ImpactsAntibiotic Resistance in BacteriaBacteriophages and microbial interactions
The transferable resistome of biosolids—plasmid sequencing reveals carriage of clinically relevant antibiotic resistance genes | Litcius