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Meta-transcriptomics reveals a diverse antibiotic resistance gene pool in avian microbiomes

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journal contribution
posted on 2019-04-08, 00:00 authored by Vanessa R Marcelino, Michelle Wille, Aeron C Hurt, Daniel González-Acuña, Marcel KlaassenMarcel Klaassen, Timothy E Schlub, John-Sebastian Eden, Mang Shi, Jonathan R Iredell, Tania C Sorrell, Edward C Holmes
BACKGROUND: Antibiotic resistance is rendering common bacterial infections untreatable. Wildlife can incorporate and disperse antibiotic-resistant bacteria in the environment, such as water systems, which in turn serve as reservoirs of resistance genes for human pathogens. Anthropogenic activity may contribute to the spread of bacterial resistance cycling through natural environments, including through the release of human waste, as sewage treatment only partially removes antibiotic-resistant bacteria. However, empirical data supporting these effects are currently limited. Here we used bulk RNA-sequencing (meta-transcriptomics) to assess the diversity and expression levels of functionally viable resistance genes in the gut microbiome of birds with aquatic habits in diverse locations. RESULTS: We found antibiotic resistance genes in birds from all localities, from penguins in Antarctica to ducks in a wastewater treatment plant in Australia. Comparative analysis revealed that birds feeding at the wastewater treatment plant carried the greatest resistance gene burden, including genes typically associated with multidrug resistance plasmids as the aac(6)-Ib-cr gene. Differences in resistance gene burden also reflected aspects of bird ecology, taxonomy, and microbial function. Notably, ducks, which feed by dabbling, carried a higher abundance and diversity of resistance genes than turnstones, avocets, and penguins, which usually prey on more pristine waters. CONCLUSIONS: These transcriptome data suggest that human waste, even if it undergoes treatment, might contribute to the spread of antibiotic resistance genes to the wild. Differences in microbiome functioning across different bird lineages may also play a role in the antibiotic resistance burden carried by wild birds. In summary, we reveal the complex factors explaining the distribution of resistance genes and their exchange routes between humans and wildlife, and show that meta-transcriptomics is a valuable tool to access functional resistance genes in whole microbial communities.

History

Journal

BMC biology

Volume

17

Issue

1

Article number

31

Publisher

BioMed Central

Location

London, Eng.

eISSN

1741-7007

Language

eng

Publication classification

C1 Refereed article in a scholarly journal

Copyright notice

2019, The Authors