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Engineering the modular receptor-binding proteins of Klebsiella phages switches their capsule serotype specificity

Agnieszka Łątka (UGent) , Sebastien Lemire, Dennis Grimon (UGent) , Dorien Dams (UGent) , Barbara Maciejewska, Timothy Lu, Zuzanna Drulis-Kawa and Yves Briers (UGent)
(2021) MBIO. 12(3).
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Abstract
The high specificity of bacteriophages is driven by their receptor-binding proteins (RBPs). Many Klebsiella bacteriophages target the capsular exopolysaccharide as the receptor and encode RBPs with depolymerase activity. The modular structure of these RBPs with an N-terminal structural module to attach the RBP to the phage tail, and a C-terminal specificity module for exopolysaccharide degradation, supports horizontal transfer as a major evolutionary driver for Klebsiella phage RBPs. We mimicked this natural evolutionary process by the construction of modular RBP chimeras, exchanging N-terminal structural modules and C-terminal specificity modules. All chimeras strictly follow the capsular serotype specificity of the C-terminal module. Transplanting chimeras with a K11 N-terminal structural RBP module in a Klebsiella phage K11 scaffold results in a capsular serotype switch and corresponding host range modification of the synthetic phages, demonstrating that horizontal transfer of C-terminal specificity modules offers Klebsiella phages an evolutionary highway for rapid adaptation to new capsular serotypes. IMPORTANCE The antimicrobial resistance crisis has rekindled interest in bacteriophage therapy. Phages have been studied over a century as therapeutics to treat bacterial infections, but one of the biggest challenges for the use of phages in therapeutic interventions remains their high specificity. In particular, many Klebsiella phages have a narrow spectrum constrained by the high diversity of exopolysaccharide capsules that shield access to the cells. In this work, we have elaborated how Klebsiella phages deal with this high diversity by exchanging building blocks of their receptor-binding proteins.
Keywords
phage, tail fiber, receptor binding protein, Klebsiella pneumoniae, bacteriophage, Klebsiella, depolymerase, horizontal transfer, receptor-binding protein, TAILSPIKE PROTEIN, CRYSTAL-STRUCTURE, HOST-RANGE, DEPOLYMERASES, BACTERIAL, ENCODES, BACTERIOPHAGES, IDENTIFICATION, PNEUMONIAE, RESISTANCE

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MLA
Łątka, Agnieszka, et al. “Engineering the Modular Receptor-Binding Proteins of Klebsiella Phages Switches Their Capsule Serotype Specificity.” MBIO, vol. 12, no. 3, 2021, doi:10.1128/mbio.00455-21.
APA
Łątka, A., Lemire, S., Grimon, D., Dams, D., Maciejewska, B., Lu, T., … Briers, Y. (2021). Engineering the modular receptor-binding proteins of Klebsiella phages switches their capsule serotype specificity. MBIO, 12(3). https://doi.org/10.1128/mbio.00455-21
Chicago author-date
Łątka, Agnieszka, Sebastien Lemire, Dennis Grimon, Dorien Dams, Barbara Maciejewska, Timothy Lu, Zuzanna Drulis-Kawa, and Yves Briers. 2021. “Engineering the Modular Receptor-Binding Proteins of Klebsiella Phages Switches Their Capsule Serotype Specificity.” MBIO 12 (3). https://doi.org/10.1128/mbio.00455-21.
Chicago author-date (all authors)
Łątka, Agnieszka, Sebastien Lemire, Dennis Grimon, Dorien Dams, Barbara Maciejewska, Timothy Lu, Zuzanna Drulis-Kawa, and Yves Briers. 2021. “Engineering the Modular Receptor-Binding Proteins of Klebsiella Phages Switches Their Capsule Serotype Specificity.” MBIO 12 (3). doi:10.1128/mbio.00455-21.
Vancouver
1.
Łątka A, Lemire S, Grimon D, Dams D, Maciejewska B, Lu T, et al. Engineering the modular receptor-binding proteins of Klebsiella phages switches their capsule serotype specificity. MBIO. 2021;12(3).
IEEE
[1]
A. Łątka et al., “Engineering the modular receptor-binding proteins of Klebsiella phages switches their capsule serotype specificity,” MBIO, vol. 12, no. 3, 2021.
@article{8707449,
  abstract     = {{The high specificity of bacteriophages is driven by their receptor-binding proteins (RBPs). Many Klebsiella bacteriophages target the capsular exopolysaccharide as the receptor and encode RBPs with depolymerase activity. The modular structure of these RBPs with an N-terminal structural module to attach the RBP to the phage tail, and a C-terminal specificity module for exopolysaccharide degradation, supports horizontal transfer as a major evolutionary driver for Klebsiella phage RBPs. We mimicked this natural evolutionary process by the construction of modular RBP chimeras, exchanging N-terminal structural modules and C-terminal specificity modules. All chimeras strictly follow the capsular serotype specificity of the C-terminal module. Transplanting chimeras with a K11 N-terminal structural RBP module in a Klebsiella phage K11 scaffold results in a capsular serotype switch and corresponding host range modification of the synthetic phages, demonstrating that horizontal transfer of C-terminal specificity modules offers Klebsiella phages an evolutionary highway for rapid adaptation to new capsular serotypes.

IMPORTANCE The antimicrobial resistance crisis has rekindled interest in bacteriophage therapy. Phages have been studied over a century as therapeutics to treat bacterial infections, but one of the biggest challenges for the use of phages in therapeutic interventions remains their high specificity. In particular, many Klebsiella phages have a narrow spectrum constrained by the high diversity of exopolysaccharide capsules that shield access to the cells. In this work, we have elaborated how Klebsiella phages deal with this high diversity by exchanging building blocks of their receptor-binding proteins.}},
  articleno    = {{e00455-21}},
  author       = {{Łątka, Agnieszka and Lemire, Sebastien and Grimon, Dennis and Dams, Dorien and Maciejewska, Barbara and Lu, Timothy and Drulis-Kawa, Zuzanna and Briers, Yves}},
  issn         = {{2150-7511}},
  journal      = {{MBIO}},
  keywords     = {{phage,tail fiber,receptor binding protein,Klebsiella pneumoniae,bacteriophage,Klebsiella,depolymerase,horizontal transfer,receptor-binding protein,TAILSPIKE PROTEIN,CRYSTAL-STRUCTURE,HOST-RANGE,DEPOLYMERASES,BACTERIAL,ENCODES,BACTERIOPHAGES,IDENTIFICATION,PNEUMONIAE,RESISTANCE}},
  language     = {{eng}},
  number       = {{3}},
  pages        = {{12}},
  title        = {{Engineering the modular receptor-binding proteins of Klebsiella phages switches their capsule serotype specificity}},
  url          = {{http://dx.doi.org/10.1128/mbio.00455-21}},
  volume       = {{12}},
  year         = {{2021}},
}
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