Gustavo Di Lallo1, Mattia Falconi2, Federico Iacovelli2, Domenico Frezza1, Pietro D'Addabbo3. 1. Laboratory of Microbiology, Department of Biology, University of Roma Tor Vergata, Roma, Italy. 2. Structural Bioinformatics Group, Department of Biology, University of Roma Tor Vergata, Roma, Italy. 3. Computational Biology Unit, Department of Biology, University of Bari, Bari, Italy.
Abstract
Background: Phage therapy (PT), as a method to treat bacterial infections, needs identification of bacteriophages targeting specific pathogenic host. Enterococcus faecalis, a Gram-positive coccus resident in the human gastrointestinal tract, may become pathogenic in hospitalized patients showing acquired resistance to vancomycin and thus representing a possible target for PT. Materials and Methods: We isolated four phages that infect E. faecalis and characterized them by host range screening, transmission electron microscopy, and genome sequencing. We also identified and three-dimensional modeled a new hyaluronidase enzyme. Results: The four phages belong to Siphoviridae family: three Efquatrovirus (namely vB_EfaS_TV51, vB_EfaS_TV54, and vB_EfaS_TV217) and one Saphexavirus (vB_EfaS_TV16). All of them are compatible with lytic cycle. vB_EfaS_TV16 moreover presents a gene encoding for a hyaluronidase enzyme. Conclusions: The identified phages show features suggesting their useful application in PT, particularly the Saphexavirus that may be of enhanced relevance in PT because of its potential biofilm-digestion capability. Copyright 2021, Mary Ann Liebert, Inc., publishers.
Background: Phage therapy (PT), as a method to treat bacterial infections, needs identification of bacteriophages targeting specific pathogenic host. Enterococcus faecalis, a Gram-positive coccus resident in the human gastrointestinal tract, may become pathogenic in hospitalized patients showing acquired resistance to vancomycin and thus representing a possible target for PT. Materials and Methods: We isolated four phages that infect E. faecalis and characterized them by host range screening, transmission electron microscopy, and genome sequencing. We also identified and three-dimensional modeled a new hyaluronidase enzyme. Results: The four phages belong to Siphoviridae family: three Efquatrovirus (namely vB_EfaS_TV51, vB_EfaS_TV54, and vB_EfaS_TV217) and one Saphexavirus (vB_EfaS_TV16). All of them are compatible with lytic cycle. vB_EfaS_TV16 moreover presents a gene encoding for a hyaluronidase enzyme. Conclusions: The identified phages show features suggesting their useful application in PT, particularly the Saphexavirus that may be of enhanced relevance in PT because of its potential biofilm-digestion capability. Copyright 2021, Mary Ann Liebert, Inc., publishers.
Entities:
Keywords:
3D model of hyaluronidase; host range; phage isolation; phage therapy cocktails
Authors: Nicola L Smith; Edward J Taylor; Anna-Marie Lindsay; Simon J Charnock; Johan P Turkenburg; Eleanor J Dodson; Gideon J Davies; Gary W Black Journal: Proc Natl Acad Sci U S A Date: 2005-11-28 Impact factor: 11.205