Mechanisms Underlying the Overlooked Chiral Fungicide-Driven Enantioselective Proliferation of Antibiotic Resistance in Earthworm Intestinal Microbiome.
Jiajin SongConglai ZhengMengting QiuXiu-Ping ZhanZihan ZhangHoupu ZhangNan ShiLuqing ZhangYunlong YuMogens NicolaisenLihui XuHua FangPublished in: Environmental science & technology (2024)
From a "One Health" perspective, the global threat of antibiotic resistance genes (ARGs) is associated with modern agriculture practices including agrochemicals application. Chiral fungicides account for a considerable proportion of wildly used agrochemicals; however, whether and how their enantiomers lead to differential proliferation of antibiotic resistance in agricultural environments remain overlooked. Focused on the soil-earthworm ecosystem, we for the first time deciphered the mechanisms underlying the enantioselective proliferation of antibiotic resistance driven by the enantiomers of a typical chiral fungicide mandipropamid (i.e., R -MDP and S -MDP) utilizing a multiomic approach. Time-series metagenomic analysis revealed that R -MDP led to a significant enhancement of ARGs with potential mobility (particularly the plasmid-borne ARGs) in the earthworm intestinal microbiome. We further demonstrated that R -MDP induced a concentration-dependent facilitation of plasmid-mediated ARG transfer among microbes. In addition, transcriptomic analysis with verification identified the key aspects involved, where R -MDP enhanced cell membrane permeability, transfer ability, biofilm formation and quorum sensing, rebalanced energy production, and decreased cell mobility versus S -MDP. Overall, the findings provide novel insights into the enantioselective disruption of microbiome and resistome in earthworm gut by chiral fungicides and offer significant contributions to the comprehensive risk assessment of chiral agrochemicals in agroecosystems.
Keyphrases
- antibiotic resistance genes
- capillary electrophoresis
- microbial community
- wastewater treatment
- risk assessment
- biofilm formation
- human health
- escherichia coli
- mass spectrometry
- ionic liquid
- signaling pathway
- climate change
- anaerobic digestion
- healthcare
- pseudomonas aeruginosa
- single cell
- heavy metals
- staphylococcus aureus
- crispr cas
- candida albicans
- public health
- primary care
- mental health
- stem cells
- oxidative stress
- endothelial cells
- drug induced