Bacteriophage φEf11 ORF28 Endolysin, a Multifunctional Lytic Enzyme with Properties Distinct from All Other Identified Enterococcus faecalis Phage Endolysins

Zhang, Hongming; Buttaro, Bettina A.; Fouts, Derrick E.; Sanjari, Salar; Evans, Bradley S.; Stevens, R. H.

doi:10.1128/aem.00555-19

Cited by 30 publications

(30 citation statements)

References 70 publications

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“…The external application of endolysins to strains of most (Gram positive) bacteria will also cause cell wall degradation and result in cell lysis from without. Previously, we isolated and characterized an endolysin produced by E. faecalis bacteriophage ɸEf11 [20]. Preparations of this endolysin (ORF28 endolysin) were used to test the sensitivity of the isogenic pair of lysogenic (TUSoD11) and cured [TUSoD11(ΔɸEf11)] E. faecalis strains.…”

Section: Biofilm Assaymentioning

confidence: 99%

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The prevalence and impact of lysogeny among oral isolates ofEnterococcus faecalis

Stevens

Zhang

Sedgley

et al. 2019

Journal of Oral Microbiology

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Bacterial phenotypic properties are frequently influenced by the uptake of extrachromosomal genetic elements, such as plasmids and bacteriophage genomes. Such modifications can result in enhanced pathogenicity due to toxin production, increased toxin release, altered antigenicity, and resistance to antibiotics. In the case of bacteriophages, the phage genome can stably integrate into the bacterial chromosome as a prophage, to produce a lysogenic cell. Oral enterococcal strains have been isolated from subgingival plaque and the root canals of endodontically-treated teeth that have failed to heal. Previously, we isolated a bacteriophage, phage ɸEf11, induced from a lysogenic Enterococcus faecalis strain recovered from the root canal of a failed endodontic case. PCR analysis using phage ɸEf11-specific oligonucleotide primers, disclosed that lysogens containing ɸEf11 prophages were commonly found among oral E. faecalis strains, being detected in 19 of 61 (31%) strains examined. Furthermore, in comparison to an isogenic cured strain, cultures of a lysogen harboring an ɸEf11 prophage exhibited altered phenotypic characteristics, such as increased persistence at high density, enhanced biofilm formation, and resistance to a bacteriophage lytic enzyme. From these results we conclude that lysogeny is common among oral E. faecalis strains, and that it alters properties of the lysogenic cell.

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Section: Biofilm Assaymentioning

confidence: 99%

“…The cells were resuspended in 5 ml of PBS, and 1.5 ml of this suspension was transferred into sterile, clear tubes. Each tube then received 30 μl of a filter sterilized preparation of the phage ɸEf11 ORF28 endolysin [20]. Control tubes received 30 μl of PBS instead of the endolysin.…”

Section: Biofilm Assaymentioning

confidence: 99%

The prevalence and impact of lysogeny among oral isolates ofEnterococcus faecalis

Stevens

Zhang

Sedgley

et al. 2019

Journal of Oral Microbiology

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“…Generally, reports from recent years indicated a high biodiversity of bacteriophages specific for E. faecalis strains. Such reports can be exemplified by articles describing isolation and characterization of previously unknown phages of different properties [ 34 , 35 , 36 , 37 , 38 , 39 , 40 , 41 , 42 , 43 , 44 , 45 ], genetic modification of known phages and their use in experimental phage therapy (including effects on biofilms) [ 46 , 47 ], assessment of phages in therapy using animal models [ 48 , 49 , 50 , 51 , 52 , 53 ], and cloning of phage genes coding for specific lysins and characterization of the gene products in the light of killing E. faecalis cells [ 54 , 55 , 56 , 57 , 58 , 59 , 60 ].…”

Section: Introductionmentioning

confidence: 99%

Characterization of the Bacteriophage vB_EfaS-271 Infecting Enterococcus faecalis

Topka-Bielecka

Bloch

Nejman-Faleńczyk

et al. 2020

IJMS

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A newly isolated bacteriophage infecting Enterococcus faecalis strains has been characterized, including determination of its molecular features. This phage, named vB_EfaS-271, has been classified as a Siphoviridae member, according to electron microscopy characterization of the virions, composed of a 50 nm-diameter head and a long, flexible, noncontractable tail (219 × 12.5 nm). Analysis of the whole dsDNA genome of this phage showed that it consists of 40,197 bp and functional modules containing genes coding for proteins that are involved in DNA replication (including DNA polymerase/primase), morphogenesis, packaging and cell lysis. Mass spectrometry analysis allowed us to identify several phage-encoded proteins. vB_EfaS-271 reveals a relatively narrow host range, as it is able to infect only a few E. faecalis strains. On the other hand, it is a virulent phage (unable to lysogenize host cells), effectively and quickly destroying cultures of sensitive host bacteria, with a latent period as short as 8 min and burst size of approximately 70 phages per cell at 37 °C. This phage was also able to destroy biofilms formed by E. faecalis. These results contribute to our understanding of the biodiversity of bacteriophages, confirming the high variability among these viruses and indicating specific genetic and functional features of vB_EfaS-271.

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“…There are several reports describing various phage endolysins’ efficacy against bacterial biofilms where only limited activities were reported [ 50 , 51 , 52 , 53 ]. One report described an endolysin against Staphylococcus aureus biofilm on the surface of a medical device which showed no apparent efficacy [ 54 ].…”

Section: Discussionmentioning

confidence: 99%

Comparison of Enterococcus faecalis Biofilm Removal Efficiency among Bacteriophage PBEF129, Its Endolysin, and Cefotaxime

Hwang

Hong³

et al. 2021

Viruses

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Enterococcus faecalis is a Gram-positive pathogen which colonizes human intestinal surfaces, forming biofilms, and demonstrates a high resistance to many antibiotics. Especially, antibiotics are less effective for eradicating biofilms and better alternatives are needed. In this study, we have isolated and characterized a bacteriophage, PBEF129, infecting E. faecalis. PBEF129 infected a variety of strains of E. faecalis, including those exhibiting antibiotic resistance. Its genome is a linear double-stranded DNA, 144,230 base pairs in length. Its GC content is 35.9%. The closest genomic DNA sequence was found in Enterococcus phage vB_EfaM_Ef2.3, with a sequence identity of 99.06% over 95% query coverage. Furthermore, 75 open reading frames (ORFs) were functionally annotated and five tRNA-encoding genes were found. ORF 6 was annotated as a phage endolysin having an L-acetylmuramoyl-l-alanine amidase activity. We purified the enzyme as a recombinant protein and confirmed its enzymatic activity. The endolysin’s host range was observed to be wider than its parent phage PBEF129. When applied to bacterial biofilm on the surface of in vitro cultured human intestinal cells, it demonstrated a removal efficacy of the same degree as cefotaxime, but much lower than its parent bacteriophage.

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Bacteriophage φEf11 ORF28 Endolysin, a Multifunctional Lytic Enzyme with Properties Distinct from All Other Identified Enterococcus faecalis Phage Endolysins

Cited by 30 publications

References 70 publications

The prevalence and impact of lysogeny among oral isolates ofEnterococcus faecalis

The prevalence and impact of lysogeny among oral isolates ofEnterococcus faecalis

Characterization of the Bacteriophage vB_EfaS-271 Infecting Enterococcus faecalis

Comparison of Enterococcus faecalis Biofilm Removal Efficiency among Bacteriophage PBEF129, Its Endolysin, and Cefotaxime

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