Interactions between commensal Enterococcus faecium and Enterococcus lactis and clinical isolates of Enterococcus faecium .
Theresa Maria WagnerAnna Kaarina PöntinenCarolin Kornelia FenzelDaniel EngiJessin JaniceAna C Almeida-SantosAna P TedimAna R FreitasLuísa PeixeWillem van SchaikMona JohannessenKristin HegstadPublished in: FEMS microbes (2024)
Enterococcus faecium ( Efm ) is a versatile pathogen, responsible for multidrug-resistant infections, especially in hospitalized immunocompromised patients. Its population structure has been characterized by diverse clades (A1, A2, and B (reclassified as E. lactis ( Ela )), adapted to different environments, and distinguished by their resistomes and virulomes. These features only partially explain the predominance of clade A1 strains in nosocomial infections. We investigated in vitro interaction of 50 clinical isolates (clade A1 Efm ) against 75 commensal faecal isolates from healthy humans (25 clade A2 Efm and 50 Ela ). Only 36% of the commensal isolates inhibited clinical isolates, while 76% of the clinical isolates inhibited commensal isolates. The most apparent overall differences in inhibition patterns were presented between clades. The inhibitory activity was mainly mediated by secreted, proteinaceous, heat-stable compounds, likely indicating an involvement of bacteriocins. A custom-made database targeting 76 Bacillota bacteriocins was used to reveal bacteriocins in the genomes. Our systematic screening of the interactions between nosocomial and commensal Efm and Ela on a large scale suggests that, in a clinical setting, nosocomial strains not only have an advantage over commensal strains due to their possession of AMR genes, virulence factors, and resilience but also inhibit the growth of commensal strains.
Keyphrases
- escherichia coli
- biofilm formation
- multidrug resistant
- acinetobacter baumannii
- klebsiella pneumoniae
- end stage renal disease
- pseudomonas aeruginosa
- staphylococcus aureus
- ejection fraction
- genome wide
- chronic kidney disease
- drug resistant
- methicillin resistant staphylococcus aureus
- candida albicans
- climate change
- gene expression
- emergency department
- genetic diversity
- newly diagnosed
- intensive care unit
- cystic fibrosis
- mass spectrometry
- magnetic resonance
- single cell
- dna methylation
- drug delivery
- drug induced