Viruses (Dec 2023)

StM171, a <i>Stenotrophomonas maltophilia</i> Bacteriophage That Affects Sensitivity to Antibiotics in Host Bacteria and Their Biofilm Formation

  • Ghadeer Jdeed,
  • Vera Morozova,
  • Yuliya Kozlova,
  • Artem Tikunov,
  • Tatyana Ushakova,
  • Alevtina Bardasheva,
  • Andrey Manakhov,
  • Maria Mitina,
  • Elena Zhirakovskaya,
  • Nina Tikunova

DOI
https://doi.org/10.3390/v15122455
Journal volume & issue
Vol. 15, no. 12
p. 2455

Abstract

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Stenotrophomonas maltophilia mainly causes respiratory infections that are associated with a high mortality rate among immunocompromised patients. S. maltophilia exhibits a high level of antibiotic resistance and can form biofilms, which complicates the treatment of patients infected with this bacterium. Phages combined with antibiotics could be a promising treatment option. Currently, ~60 S. maltophilia phages are known, and their effects on biofilm formation and antibiotic sensitivity require further examination. Bacteriophage StM171, which was isolated from hospital wastewater, showed a medium host range, low burst size, and low lytic activity. StM171 has a 44kbp dsDNA genome that encodes 59 open-reading frames. A comparative genomic analysis indicated that StM171, along with the Stenotrophomonas phage Suso (MZ326866) and Xanthomonas phage HXX_Dennis (ON711490), are members of a new putative Nordvirus genus. S. maltophilia strains that developed resistance to StM171 (bacterial-insensitive mutants) showed a changed sensitivity to antibiotics compared to the originally susceptible strains. Some bacterial-insensitive mutants restored sensitivity to cephalosporin and penicillin-like antibiotics and became resistant to erythromycin. StM171 shows strain- and antibiotic-dependent effects on the biofilm formation of S. maltophilia strains.

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