Biological and genomic characteristics of three novel bacteriophages and a phage-plasmid of Klebsiella pneumoniae.

Abstract

Bacteriophages have emerged as promising candidates for the treatment of difficult-to-treat bacterial infections. The aim of this study is to isolate and characterize phages infecting carbapenem-resistant and extended-spectrum beta-lactamase producer Klebsiella pneumoniae isolates. Water samples were taken for the isolation of bacteriophages. One-step growth curve, the optimal multiplicity of infection (MOI), thermal and pH stabilities, transmission electron microscopy and whole-genome sequencing of phages were studied. Four phages were isolated and named Klebsiella phage Kpn02, Kpn17, Kpn74, and Kpn13. The optimal MOI and latent periods of phage Kpn02, Kpn17, Kpn74, and Kpn13 were 10, 1, 0.001, and 100 PFU/CFU and 20, 10, 20, and 30min, respectively. Burst sizes ranged from 811 to 2363. No known antibiotic resistance and virulence genes were identified. No tRNAs were detected except Klebsiella phage Kpn02 which encodes 24 tRNAs. Interestingly, Klebsiella phage Kpn74 was predicted to be a lysogenic phage whose prophage is a linear plasmid molecule with covalently closed ends. Of the Klebsiella-infecting phages presented in current study, virulent phages suggest that they may represent candidate therapeutic agents against MDR K. pneumoniae, based on short latent period, high burst sizes and no known antibiotic resistance and virulence genes in their genomes.