Plasmid-encoded insertion sequences promote rapid adaptation in clinical enterobacteria

Sastre-Dominguez, Jorge; DelaFuente, Javier; Toribio-Celestino, Laura; Herencias, Cristina; Herrador-Gomez, Pedro; Costas, Coloma; Hernandez-Garcia, Marta; Canton, Rafael; Rodriguez-Beltran, Jeronimo; Santos-Lopez, Alfonso; San Millan, Alvaro

doi:10.1101/2024.03.01.582297

Cited by 3 publications

(1 citation statement)

References 70 publications

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“…We described that the only plasmid copy of IS 17 was subsequently detected in chromosomes of evolved strains collected during the infection. This result brings additional evidence of IS dynamics shaping bacterial evolution to adapt to a new environment, as recently described for IS 1 in clinical Enterobacteriacea (45).…”

Section: Discussionsupporting

confidence: 78%

Host shapes microevolution of MDR Acinetobacter baumannii during long-term infection

Bednarczuk,

Chassard,

Plantade

et al. 2024

Preprint

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Acinetobacter baumanniiis a nosocomial pathogen associated with various infections, including urinary tract infections (UTIs).A. baumanniiis known to rapidly become resistant to antibiotic therapy, but much less is known about possible adaptation without antibiotic pressure and thereby host-driven evolution. Through a retrospective study, we investigated within-host microevolution during a subclinical five-year UTI in an animal-patient after withdrawal of colistin treatment. We conducted whole-genome sequencing and phenotypic assays on seventeen ST25 isolates. Eight of which were isolated longitudinally throughout the infection timeline while nine others were obtained subsequently to investigate bacterial diversity. We determined that the infection was monophyletic with variations in genome sizes and nucleotide sequences. Over the course of the infection,A. baumanniiunderwent genome reduction through insertion sequence (IS) recombination, phage excision, or plasmid curing. Despite this global genome reduction, we observed an expansion of IS17, initially located on an endogenous plasmid. Gene loss resulted in decreased antibiotic resistance, yet colistin resistance due to apmrBmutation remained stable. All other genetic variations were mainly located in metabolism and biofilm formation genes. Metabolic assays revealed a shift towards as slight decreased metabolic flexibility, presumably adapted to host's urine composition. Moreover, repeated variation affecting biofilm and adhesion genes associated with weak biofilm-forming capacity suggests a genetic drift of repressed genes. This study provides a unique insight into host adaptation of this opportunistic pathogen.

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Section: Discussionsupporting

confidence: 78%

Host shapes microevolution of MDR Acinetobacter baumannii during long-term infection

Bednarczuk,

Chassard,

Plantade

et al. 2024

Preprint

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Evolutionary dynamics of genome structure and content among closely related bacteria

Molari,

Shaw,

Neher

2024

Preprint

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Bacterial genomes primarily diversify via gain, loss, and rearrangement of genetic material in their flexible accessory genome. Yet the dynamics of accessory genome evolution are very poorly understood, in contrast to the core genome where diversification is readily described by mutations and homologous recombination. Here, we tackle this problem for the case of very closely related genomes. We comprehensively describe genome evolution within n=222 genomes ofE. coliST131, which likely shared a common ancestor around one hundred years ago. After removing putative recombinant diversity, the total length of the phylogeny is 6000 core genome mutations. Within this diversity, we find 22 modifications to core genome synteny and estimate around 2000 structural changes within the accessory genome, i.e. one structural change for every 3 core genome mutations. 63% of loci with structural diversity could be resolved into individual gain and loss events with ten-fold more gains than losses, demonstrating a dominance of gains due to insertion sequences and prophage integration. Our results suggest the majority of synteny changes and insertions in bacterial genomes are likely deleterious and only persist for a short time before being removed by purifying selection.

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Plasmid-chromosome transcriptional crosstalk in multidrug resistant clinical enterobacteria

Toribio-Celestino,

Calvo-Villamañán,

Herencias

et al. 2024

Preprint

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Conjugative plasmids promote the dissemination and evolution of antimicrobial resistance in bacterial pathogens. However, plasmid acquisition can produce physiological alterations in the bacterial host, leading to potential fitness costs that determine the clinical success of bacteria-plasmid associations. In this study, we used a transcriptomic approach to characterize the interactions between a globally disseminated carbapenem resistance plasmid, pOXA-48, and a diverse collection of multidrug resistant clinical enterobacteria. Although pOXA-48 produced mostly strain-specific transcriptional alterations, it also led to the common overexpression of a small chromosomal operon present inKlebsiellaspp. andCitrobacter freundiistrains. This operon included two genes coding for a pirin and an isochorismatase family proteins (pfpandifp), and showed evidence of horizontal mobilization across Proteobacteria species. Combining genetic engineering, transcriptomics, and CRISPRi gene silencing, we showed that a pOXA-48-encoded LysR regulator is responsible for the plasmid-chromosome crosstalk. Crucially, the operon overexpression produced a fitness benefit in a pOXA-48-carryingK. pneumoniaeclinical strain, suggesting that this crosstalk promotes the dissemination of carbapenem resistance in clinical settings.

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Plasmid-encoded insertion sequences promote rapid adaptation in clinical enterobacteria

Cited by 3 publications

References 70 publications

Host shapes microevolution of MDR Acinetobacter baumannii during long-term infection

Host shapes microevolution of MDR Acinetobacter baumannii during long-term infection

Evolutionary dynamics of genome structure and content among closely related bacteria

Plasmid-chromosome transcriptional crosstalk in multidrug resistant clinical enterobacteria

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