Thaysa Souza-Silva scite author profile

The claimed role of gene reservoir of coagulase-negative staphylococci (CoNS) could be contradicted by estimates that CRISPR/Cas systems are found in the genomes of 40–50% of bacteria, as these systems interfere with plasmid uptake in staphylococci. To further correlate this role with presence of CRISPR, we analyzed, by computational methods, 122 genomes from 15 species of CoNS. Only 15% of them harbored CRISPR/Cas systems, and this proportion was much lower for S. epidermidis and S. haemolyticus, the CoNS most frequently associated with opportunistic infections in humans. These systems are of type II or III, and at least two of them are located within SCCmec, a mobile genetic element of Staphylococcus bacterial species. An analysis of the spacers of these CRISPRs, which come from exogenous origin, allowed us to track the transference of the SCCmec, which was exchanged between different strains, species and hosts. Some of the spacers are derived from plasmids described in Staphylococcus species that are different from those in which the CRISPR are found, evidencing the attempt (and failure) of plasmid transference between them. Based on the polymorphisms of the cas1 gene in CRISPRs of types II and III, we developed a multiplex polymerase chain reaction (PCR) suitable to screen and type CRISPR systems in CoNS. The PCR was tested in 59 S. haemolyticus strains, of which only two contained a type III cas1. This gene was shown to be expressed in the exponential growth, stationary phase and during biofilm formation. The low abundance of CRISPRs in CoNS is in accordance with their role as gene reservoirs, but when present, their spacers sequence evidence and give an insight on the dynamics of horizontal genetic transfer among staphylococci.

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Interspecies transfer of plasmid-borne gentamicin resistance between Staphylococcus isolated from domestic dogs to Staphylococcus aureus

Souza-Silva

Rossi

Andrade-Oliveira

et al. 2022

Infection, Genetics and Evolution

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Staphylococcus nepalensis, a commensal of the oral microbiota of domestic cats, is a reservoir of transferrable antimicrobial resistance

Andrade-Oliveira

Rossi

Souza-Silva

et al. 2020

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Staphylococcus nepalensis is a commensal bacterium from the oral microbiota of domestic cats, with a still obscure clinical importance. In this work, we analysed the ability of feline strains of S. nepalensis to transfer antimicrobial resistance genes to Staphylococcus aureus isolated from humans through plasmids. To this end, we first analysed all publicly available genomes from cat staphylococci using computational methods to build a pan-resistome. Genes that encode resistance to erythromycin, gentamicin, mupirocin and tetracycline, common to human and cat staphylococci and previously described to be located in mobile genetic elements, were chosen for the next analyses. We studied 15 strains of S. nepalensis , which were shown to be genetically different by GTG5-PCR. As observed by disc diffusion, resistance to tetracycline was widespread (80 %), followed by resistance to erythromycin (40 %), gentamicin (27 %) and mupirocin (7 %). The strains were positive for several antimicrobial resistance genes and more than half of them harboured plasmids. The loss of plasmids and resistance genes in some strains were induced by stress with SDS. Through conjugation experiments, we observed that these plasmids can be transferred to S. aureus , thus increasing its potential to resist drug therapy. Our findings show that S. nepalensis , an underestimated inhabitant of the cat microbiota, can be a reservoir of antimicrobial resistance genes for S. aureus and, like many other staphylococci, be an overlooked and silent threat to their animal hosts and humans living with them.

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