Insertion Sequences Determine Plasmid Adaptation to New Bacterial Hosts.
Autor: | Wedel E; Antimicrobial Resistance Unit (ARU), Facultad de Veterinaria and Centro de Vigilancia Sanitaria Veterinaria (VISAVET), Universidad Complutense de Madrid, Madrid, Spain., Bernabe-Balas C; Antimicrobial Resistance Unit (ARU), Facultad de Veterinaria and Centro de Vigilancia Sanitaria Veterinaria (VISAVET), Universidad Complutense de Madrid, Madrid, Spain., Ares-Arroyo M; Antimicrobial Resistance Unit (ARU), Facultad de Veterinaria and Centro de Vigilancia Sanitaria Veterinaria (VISAVET), Universidad Complutense de Madrid, Madrid, Spain., Montero N; Antimicrobial Resistance Unit (ARU), Facultad de Veterinaria and Centro de Vigilancia Sanitaria Veterinaria (VISAVET), Universidad Complutense de Madrid, Madrid, Spain., Santos-Lopez A; Antimicrobial Resistance Unit (ARU), Facultad de Veterinaria and Centro de Vigilancia Sanitaria Veterinaria (VISAVET), Universidad Complutense de Madrid, Madrid, Spain., Mazel D; Institut Pasteur, Université de Paris Cité, CNRS UMR3525, Unité de Plasticité du Génome Bactérien, Département Génomes et Génétique, Paris, France., Gonzalez-Zorn B; Antimicrobial Resistance Unit (ARU), Facultad de Veterinaria and Centro de Vigilancia Sanitaria Veterinaria (VISAVET), Universidad Complutense de Madrid, Madrid, Spain. |
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Jazyk: | angličtina |
Zdroj: | MBio [mBio] 2023 Jun 27; Vol. 14 (3), pp. e0315822. Date of Electronic Publication: 2023 Apr 25. |
DOI: | 10.1128/mbio.03158-22 |
Abstrakt: | Plasmids facilitate the vertical and horizontal spread of antimicrobial resistance genes between bacteria. The host range and adaptation of plasmids to new hosts determine their impact on the spread of resistance. In this work, we explore the mechanisms driving plasmid adaptation to novel hosts in experimental evolution. Using the small multicopy plasmid pB1000, usually found in Pasteurellaceae , we studied its adaptation to a host from a different bacterial family, Escherichia coli. We observed two different mechanisms of adaptation. One mechanism is single nucleotide polymorphisms (SNPs) in the origin of replication ( oriV ) of the plasmid, which increase the copy number in E. coli cells, elevating the stability, and resistance profile. The second mechanism consists of two insertion sequences (ISs), IS 1 and IS 10 , which decrease the fitness cost of the plasmid by disrupting an uncharacterized gene on pB1000 that is harmful to E. coli. Both mechanisms increase the stability of pB1000 independently, but only their combination allows long-term maintenance. Crucially, we show that the mechanisms have a different impact on the host range of the plasmid. SNPs in oriV prevent the replication in the original host, resulting in a shift of the host range. In contrast, the introduction of ISs either shifts or expands the host range, depending on the IS. While IS 1 leads to expansion, IS 10 cannot be reintroduced into the original host. This study gives new insights into the relevance of ISs in plasmid-host adaptation to understand the success in spreading resistance. IMPORTANCE ColE1-like plasmids are small, mobilizable plasmids that can be found across at least four orders of Gammaproteobacteria and are strongly associated with antimicrobial resistance genes. Plasmid pB1000 carries the gene bla Competing Interests: The authors declare no conflict of interest. |
Databáze: | MEDLINE |
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