AI Article Synopsis
- Carbapenem-resistant Klebsiella pneumoniae (CRKP) poses a serious global health threat, with limited treatment options available, highlighting the need for new alternatives like bacteriophages.
- Researchers have isolated a novel phage, vB_KpnP_23, from hospital sewage that effectively targets and destroys various CRKP strains, particularly those linked to serious infections.
- The combination of vB_KpnP_23 with certain antibiotics shows a significant synergistic effect, potentially reducing necessary drug dosages and enhancing treatment outcomes against antibiotic resistance.
Article Abstract
The global health threat posed by carbapenem-resistant Klebsiella pneumoniae (CRKP) is exacerbated by the limited availability of effective treatments. Bacteriophages are promising alternatives to conventional antimicrobial agents. However, current phage databases are limited. Thus, identifying and characterizing new phages could provide biological options for the treatment of multi-drug resistant bacterial infections. Here, we report the characterization of a novel lytic phage, vB_KpnP_23, isolated from hospital sewage. This phage exhibited potent activity against carbapenemase-producing CRKP strains and was characterised by an icosahedral head, a retractable tail, and a genome comprising 40,987 base pairs, with a G + C content of 51 %. Capable of targeting and lysing nine different capsule types (K-types) of CRKP, including the clinically relevant ST11-K64, it demonstrated both high bacteriolytic efficiency and stability in various environmental contexts. Crucially, vB_KpnP_23 lacks virulence factors, antimicrobial resistance genes, or tRNA, aligning with the key criteria for therapeutic application. In vitro evaluation of phage-antibiotic combinations revealed a significant synergistic effect between vB_KpnP_23 and meropenem, levofloxacin, or amikacin. This synergy could lead to an 8-fold reduction in the minimum inhibitory concentration (MIC), suggesting that integrated treatments combining this phage with the aforementioned antibiotics may substantially enhance drug effectiveness. This approach not only extends the clinical utility of these antibiotics but also presents a strategic advance in combating antibiotic resistance. Specifically, it underscores the potential of phage-antibiotic combinations as a powerful tool in the treatment of infections caused by CRKP, offering a promising avenue to mitigate the public health challenges of antibiotic-resistant pathogens.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11474366 | PMC |
| http://dx.doi.org/10.1016/j.virusres.2024.199473 | DOI Listing |
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