A hybrid receptor binding protein enables phage F341 infection of Campylobacter by binding to flagella and lipooligosaccharides

Ostenfeld, Line Jensen; Sørensen, Anders Nørgaard; Neve, Horst; Vitt, Amira; Klumpp, Jochen; Sørensen, Martine Camilla Holst

doi:10.3389/fmicb.2024.1358909

Front. Microbiol.

2024

DOI: 10.3389/fmicb.2024.1358909

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A hybrid receptor binding protein enables phage F341 infection of Campylobacter by binding to flagella and lipooligosaccharides

Line Jensen Ostenfeld,

Anders Nørgaard Sørensen,

Horst Neve

et al.

Abstract: Flagellotropic bacteriophages are interesting candidates as therapeutics against pathogenic bacteria dependent on flagellar motility for colonization and causing disease. Yet, phage resistance other than loss of motility has been scarcely studied. Here we developed a soft agar assay to study flagellotropic phage F341 resistance in motile Campylobacter jejuni. We found that phage adsorption was prevented by diverse genetic mutations in the lipooligosaccharides forming the secondary receptor of phage F341. Genom… Show more

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Cited by 4 publications

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Campycins are novel broad-spectrum antibacterials killing Campylobacter jejuni

Zampara,

Gencay,

Brøndsted

et al. 2024

Appl Microbiol Biotechnol

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Pyocins are high molecular weight bacteriocins produced by Pseudomonas aeruginosa that can be retargeted to new bacterial species by exchanging the pyocin tail fibers with bacteriophage receptor binding proteins (RBPs). Here, we develop retargeted pyocins called campycins as new antibacterials to precisely and effectively kill the major foodborne pathogen Campylobacter jejuni. We used two diverse RBPs (H-fibers) encoded by CJIE1 prophages found in the genomes of C. jejuni strains CAMSA2147 and RM1221 to construct campycin 1 and campycin 2, respectively. Campycins 1 and 2 could target all C. jejuni strains tested due to complementary antibacterial spectra. In addition, both campycins led to more than 3 log reductions in C. jejuni counts under microaerobic conditions at 42 °C, whereas the killing efficiency was less efficient under anaerobic conditions at 5 °C. Furthermore, we discovered that both H-fibers used to construct the campycins bind to the essential major outer membrane protein (MOMP) present in all C. jejuni in a strain-specific manner. Protein sequence alignment and structural modeling suggest that the highly variable extracellular loops of MOMP form the binding sites of the diverse H-fibers. Further in silico analyses of 5000 MOMP sequences indicated that the protein falls into three major clades predicted to be targeted by either campycin 1 or campycin 2. Thus, campycins are promising antibacterials against C. jejuni and are expected to broadly target numerous strains of this human pathogen in nature and agriculture. Key points • Campycins are engineered R-type pyocins containing H-fibers from C. jejuni prophages • Campycins reduce C. jejuni counts by >3 logs at conditions promoting growth • Campycins bind to the essential outer membrane protein MOMP in a strain-dependent way

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Campycins are novel broad-spectrum antibacterials killing Campylobacter jejuni

Zampara,

Gencay,

Brøndsted

et al. 2024

Appl Microbiol Biotechnol

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show abstract

A review of the fighting Acinetobacter baumannii on three fronts: antibiotics, phages, and nanoparticles

Teymouri,

Pourhajibagher,

Bahador

2024

Mol Biol Rep

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Flagellotropic phages: common yet diverse host interaction strategies

Gambino,

Sørensen

2024

Current Opinion in Microbiology

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A hybrid receptor binding protein enables phage F341 infection of Campylobacter by binding to flagella and lipooligosaccharides

Cited by 4 publications

References 73 publications

Campycins are novel broad-spectrum antibacterials killing Campylobacter jejuni

Campycins are novel broad-spectrum antibacterials killing Campylobacter jejuni

A review of the fighting Acinetobacter baumannii on three fronts: antibiotics, phages, and nanoparticles

Flagellotropic phages: common yet diverse host interaction strategies

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