Trimethoprim resistance in surface and wastewater is mediated by contrasting variants of the dfrB gene
Trimethoprim (TMP) is a low-cost, widely prescribed antibiotic. Its effectiveness is increasingly challenged by the spread of genes coding for TMP-resistant dihydrofolate reductases: dfrA , and the lesser-known, evolutionarily unrelated dfrB . Despite recent reports of novel variants conferring high...
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Veröffentlicht in: | The ISME Journal 2023-09, Vol.17 (9), p.1455-1466 |
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Sprache: | eng |
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Zusammenfassung: | Trimethoprim (TMP) is a low-cost, widely prescribed antibiotic. Its effectiveness is increasingly challenged by the spread of genes coding for TMP-resistant dihydrofolate reductases:
dfrA
, and the lesser-known, evolutionarily unrelated
dfrB
. Despite recent reports of novel variants conferring high level TMP resistance (
dfrB10
to
dfrB21
), the prevalence of
dfrB
is still unknown due to underreporting, heterogeneity of the analyzed genetic material in terms of isolation sources, and limited bioinformatic processing. In this study, we explored a coherent set of shotgun metagenomic sequences to quantitatively estimate the abundance of
dfrB
gene variants in aquatic environments. Specifically, we scanned sequences originating from influents and effluents of municipal sewage treatment plants as well as river-borne microbiomes. Our analyses reveal an increased prevalence of
dfrB1, dfrB2
,
dfrB3
,
dfrB4
,
dfrB5
, and
dfrB7
in wastewater microbiomes as compared to freshwater. These gene variants were frequently found in genomic neighborship with other resistance genes, transposable elements, and integrons, indicating their mobility. By contrast, the relative abundances of the more recently discovered variants
dfrB9
,
dfrB10
, and
dfrB13
were significantly higher in freshwater than in wastewater microbiomes. Moreover, their direct neighborship with other resistance genes or markers of mobile genetic elements was significantly less likely. Our findings suggest that natural freshwater communities form a major reservoir of the recently discovered
dfrB
gene variants. Their proliferation and mobilization in response to the exposure of freshwater communities to selective TMP concentrations may promote the prevalence of high-level TMP resistance and thus limit the future effectiveness of antimicrobial therapies. |
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ISSN: | 1751-7362 1751-7370 |
DOI: | 10.1038/s41396-023-01460-7 |