Recombinant reporter phage rTUN1::<i>nLuc</i> enables rapid detection and real-time antibiotic susceptibility testing of <i>Klebsiella pneumoniae</i> K64 strains

Braun, Peter; Raab, Rene; Bugert, Joachim Jakob; Eckstein, Simone

doi:10.1101/2022.08.19.504497

Cited by 2 publications

(1 citation statement)

References 51 publications

(59 reference statements)

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“…NLuc is a small and highly stable enzyme that produces strong, ATP-independent, glow-type luminescence upon substrate addition [11]. NLuc reporter phages can reliably detect bacterial contaminations at very low concentrations [12][13][14].…”

Section: Introductionmentioning

confidence: 99%

Engineered reporter phages for rapid detection ofEscherichia coli, Klebsiellaspp., andEnterococcusspp. in urine

Meile

Staubli

et al. 2022

Preprint

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The rapid detection and species-level differentiation of bacterial pathogens facilitates antibiotic stewardship and improves disease management. Here, we develop a rapid bacteriophage-based diagnostic assay to detect the most prevalent pathogens causing urinary tract infections:Escherichia coli, Klebsiellaspp., andEnterococcusspp. For each uropathogen, two virulent phages were genetically engineered to express a nanoluciferase reporter gene upon host infection. Using 206 patient urine samples, reporter phage-induced bioluminescence was quantified to identify bacteriuria and the assay was benchmarked against conventional urinalysis. Overall,E. coli, Klebsiellaspp., andEnterococcusspp. were each detected with high sensitivity (68%, 78%, 85%), specificity (99%, 99%, 99%), and accuracy (90%, 94%, 96%) at a resolution of ⩾103CFU/ml within 5 h. We further demonstrate how bioluminescence in urine can be used to predict phage antibacterial activity, demonstrating the future potential of reporter phages as companion diagnostics that guide patient-phage matching prior to therapeutic phage application.

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Section: Introductionmentioning

confidence: 99%

Engineered reporter phages for rapid detection ofEscherichia coli, Klebsiellaspp., andEnterococcusspp. in urine

Meile

Staubli

et al. 2022

Preprint

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Phage Therapy in Germany—Update 2023

Willy

Bugert

Claßen

et al. 2023

Viruses

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Bacteriophage therapy holds promise in addressing the antibiotic-resistance crisis, globally and in Germany. Here, we provide an overview of the current situation (2023) of applied phage therapy and supporting research in Germany. The authors, an interdisciplinary group working on patient-focused bacteriophage research, addressed phage production, phage banks, susceptibility testing, clinical application, ongoing translational research, the regulatory situation, and the network structure in Germany. They identified critical shortcomings including the lack of clinical trials, a paucity of appropriate regulation and a shortage of phages for clinical use. Phage therapy is currently being applied to a limited number of patients as individual treatment trials. There is presently only one site in Germany for large-scale good-manufacturing-practice (GMP) phage production, and one clinic carrying out permission-free production of medicinal products. Several phage banks exist, but due to varying institutional policies, exchange among them is limited. The number of phage research projects has remarkably increased in recent years, some of which are part of structured networks. There is a demand for the expansion of production capacities with defined quality standards, a structured registry of all treated patients and clear therapeutic guidelines. Furthermore, the medical field is still poorly informed about phage therapy. The current status of non-approval, however, may also be regarded as advantageous, as insufficiently restricted use of phage therapy without adequate scientific evidence for effectiveness and safety must be prevented. In close coordination with the regulatory authorities, it seems sensible to first allow some centers to treat patients following the Belgian model. There is an urgent need for targeted networking and funding, particularly of translational research, to help advance the clinical application of phages.

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Recombinant reporter phage rTUN1::nLuc enables rapid detection and real-time antibiotic susceptibility testing of Klebsiella pneumoniae K64 strains

Cited by 2 publications

References 51 publications

Engineered reporter phages for rapid detection ofEscherichia coli, Klebsiellaspp., andEnterococcusspp. in urine

Engineered reporter phages for rapid detection ofEscherichia coli, Klebsiellaspp., andEnterococcusspp. in urine

Phage Therapy in Germany—Update 2023

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