Background/objectives: Antimicrobial resistance (AMR) is a major public health threat, which is exacerbated by the lack of new antibiotics and the emergence of multidrug-resistant (MDR) superbugs. Comprehensive efforts and alternative strategies to combat AMR are urgently needed to prevent social, medical, and economic consequences. is a pathogen responsible for a wide range of infections, from soft tissue infections to life-threatening conditions such as bacteremia and pneumonia. Bacteriophages have been considered as a potential therapeutic option to treat bacterial infections. Our aim was to isolate phages able to infect MDR strains.
Methods: We isolated two lytic phages, using the conventional double layer agar technique (DLA), from samples obtained from the influent of a wastewater treatment plant in Concepción, Chile. The phages, designated as PaCCP1 and PaCCP2, were observed by electron microscopy and their host range was determined against multiple strains using DLA. Moreover, their genomes were sequenced and analyzed.
Results: Phage PaCCP1 is a member of the genus and phage PaCCP2 is a member of the genus. Both phages are tailed and contain dsDNA. The genome of PaCCP1 is 43,176 bp in length with a GC content of 54.4%, encoding 59 ORFs, one of them being a tRNA gene. The genome of PaCCP2 is 66,333 bp in length with a GC content of 55.6%, encoding 102 non-tRNA ORFs. PaCCP1 is capable of infecting five strains of , whereas phage PaCCP2 is capable of infecting three strains of . Both phages do not contain bacterial virulence or AMR genes and contain three and six putative Anti-CRISPR proteins.
Conclusions: Phages PaCCP1 and PaCCP2 show promise as effective treatments for MDR strains, offering a potential strategy for controlling this clinically important pathogen through phage therapy.
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