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4 results on '"Amanda G. Finney"'

1. Genomic characterization of lytic bacteriophages targeting genetically diverse Pseudomonas aeruginosa clinical isolates

Author

Hayley R. Nordstrom, Daniel R. Evans, Amanda G. Finney, Kevin J. Westbrook, Paula F. Zamora, Casey E. Hofstaedter, Mohamed H. Yassin, Akansha Pradhan, Alina Iovleva, Robert K. Ernst, Jennifer M. Bomberger, Ryan K. Shields, Yohei Doi, and Daria Van Tyne

Subjects
Microbiology, Virology, Science
Abstract

Summary: Pseudomonas aeruginosa infections can be difficult to treat and new therapeutics are needed. Bacteriophage therapy is a promising alternative to traditional antibiotics, but large numbers of isolated and characterized phages are lacking. We collected 23 diverse P. aeruginosa isolates from people with cystic fibrosis (CF) and clinical infections, and used them to screen and isolate over a dozen P. aeruginosa-targeting phages from hospital wastewater. Phages were characterized with genome sequencing, comparative genomics, and lytic activity screening against all 23 bacterial host isolates. We evolved bacterial mutants that were resistant to phage infection for four different phages, and used genome sequencing and functional analysis to study them further. We also tested phages for their ability to kill P. aeruginosa grown in biofilms in vitro and ex vivo on CF airway epithelial cells. Overall, this study demonstrates how systematic genomic and phenotypic characterization can be deployed to develop bacteriophages as precision antibiotics.

Published
2022
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3. Genomic and functional characterization of Pseudomonas aeruginosa-targeting bacteriophages isolated from hospital wastewater

Author

Jennifer M. Bomberger, Daniel R. Evans, Mohamed Yassin, Yohei Doi, Kevin J. Westbrook, Amanda G Finney, Daria Van Tyne, Hayley R. Nordstrom, Alina Iovleva, Ryan K. Shields, and Paula F. Zamora

Subjects
Comparative genomics, biology, medicine.drug_class, Pseudomonas aeruginosa, Antibiotics, Biofilm, medicine.disease_cause, biology.organism_classification, Microbiology, Antibiotic resistance, Lytic cycle, medicine, Prophage, Bacteria
Abstract

Pseudomonas aeruginosa infections can be difficult to treat and new therapeutic approaches are needed. Bacteriophage therapy is a promising alternative to traditional antibiotics, but large numbers of isolated and characterized phages are lacking. We collected 23 genetically and phenotypically diverse P. aeruginosa isolates from people with cystic fibrosis (CF) and clinical infections, and characterized their genetic, phenotypic, and prophage diversity. We then used these isolates to screen and isolate 14 new P. aeruginosa-targeting phages from hospital wastewater. Phages were characterized with genome sequencing, comparative genomics, and lytic activity screening against all 23 bacterial host isolates. For four different phages, we evolved bacterial mutants that were resistant to phage infection. We then used genome sequencing and functional analysis of the resistant mutants to study their mechanisms of phage resistance as well as changes in virulence factor production and antibiotic resistance, which differed from corresponding parent bacterial isolates. Finally, we tested two phages for their ability to kill P. aeruginosa grown in biofilms in vitro, and observed that both phages reduced viable bacteria in biofilms by least one order of magnitude. One of these phages also showed activity against P. aeruginosa biofilms grown on CF airway epithelial cells. Overall, this study demonstrates how systematic genomic and phenotypic characterization can be deployed to develop bacteriophages as precision antibiotics.

Published
2021
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