Decoration of the enterococcal polysaccharide antigen EPA is essential for virulence, cell surface charge and interaction with effectors of the innate immune system.
Enterococcus faecalis is an opportunistic pathogen with an intrinsically high resistance to lysozyme, a key effector of the innate immune system. This high level of resistance requires a complex network of transcriptional regulators and several genes (oatA, pgdA, dltA and sigV) acting synergisticall...
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| Language: | English |
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Public Library of Science (PLoS)
2019-05-01
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| Series: | PLoS Pathogens |
| Online Access: | https://doi.org/10.1371/journal.ppat.1007730 |
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doaj-0e27ab749ed34e8c8bacb4ac182c42cb2021-04-21T17:10:57ZengPublic Library of Science (PLoS)PLoS Pathogens1553-73661553-73742019-05-01155e100773010.1371/journal.ppat.1007730Decoration of the enterococcal polysaccharide antigen EPA is essential for virulence, cell surface charge and interaction with effectors of the innate immune system.Robert E SmithBartłomiej SalamagaPiotr SzkutaNatalia HajdamowiczTomasz K PrajsnarGregory S BulmerThierry FontaineJustyna KołodziejczykJean-Marie HerryAndrea M HounslowMike P WilliamsonPascale SerrorStéphane MesnageEnterococcus faecalis is an opportunistic pathogen with an intrinsically high resistance to lysozyme, a key effector of the innate immune system. This high level of resistance requires a complex network of transcriptional regulators and several genes (oatA, pgdA, dltA and sigV) acting synergistically to inhibit both the enzymatic and cationic antimicrobial peptide activities of lysozyme. We sought to identify novel genes modulating E. faecalis resistance to lysozyme. Random transposon mutagenesis carried out in the quadruple oatA/pgdA/dltA/sigV mutant led to the identification of several independent insertions clustered on the chromosome. These mutations were located in a locus referred to as the enterococcal polysaccharide antigen (EPA) variable region located downstream of the highly conserved epaA-epaR genes proposed to encode a core synthetic machinery. The epa variable region was previously proposed to be responsible for EPA decorations, but the role of this locus remains largely unknown. Here, we show that EPA decoration contributes to resistance towards charged antimicrobials and underpins virulence in the zebrafish model of infection by conferring resistance to phagocytosis. Collectively, our results indicate that the production of the EPA rhamnopolysaccharide backbone is not sufficient to promote E. faecalis infections and reveal an essential role of the modification of this surface polymer for enterococcal pathogenesis.https://doi.org/10.1371/journal.ppat.1007730 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Robert E Smith Bartłomiej Salamaga Piotr Szkuta Natalia Hajdamowicz Tomasz K Prajsnar Gregory S Bulmer Thierry Fontaine Justyna Kołodziejczyk Jean-Marie Herry Andrea M Hounslow Mike P Williamson Pascale Serror Stéphane Mesnage |
| spellingShingle |
Robert E Smith Bartłomiej Salamaga Piotr Szkuta Natalia Hajdamowicz Tomasz K Prajsnar Gregory S Bulmer Thierry Fontaine Justyna Kołodziejczyk Jean-Marie Herry Andrea M Hounslow Mike P Williamson Pascale Serror Stéphane Mesnage Decoration of the enterococcal polysaccharide antigen EPA is essential for virulence, cell surface charge and interaction with effectors of the innate immune system. PLoS Pathogens |
| author_facet |
Robert E Smith Bartłomiej Salamaga Piotr Szkuta Natalia Hajdamowicz Tomasz K Prajsnar Gregory S Bulmer Thierry Fontaine Justyna Kołodziejczyk Jean-Marie Herry Andrea M Hounslow Mike P Williamson Pascale Serror Stéphane Mesnage |
| author_sort |
Robert E Smith |
| title |
Decoration of the enterococcal polysaccharide antigen EPA is essential for virulence, cell surface charge and interaction with effectors of the innate immune system. |
| title_short |
Decoration of the enterococcal polysaccharide antigen EPA is essential for virulence, cell surface charge and interaction with effectors of the innate immune system. |
| title_full |
Decoration of the enterococcal polysaccharide antigen EPA is essential for virulence, cell surface charge and interaction with effectors of the innate immune system. |
| title_fullStr |
Decoration of the enterococcal polysaccharide antigen EPA is essential for virulence, cell surface charge and interaction with effectors of the innate immune system. |
| title_full_unstemmed |
Decoration of the enterococcal polysaccharide antigen EPA is essential for virulence, cell surface charge and interaction with effectors of the innate immune system. |
| title_sort |
decoration of the enterococcal polysaccharide antigen epa is essential for virulence, cell surface charge and interaction with effectors of the innate immune system. |
| publisher |
Public Library of Science (PLoS) |
| series |
PLoS Pathogens |
| issn |
1553-7366 1553-7374 |
| publishDate |
2019-05-01 |
| description |
Enterococcus faecalis is an opportunistic pathogen with an intrinsically high resistance to lysozyme, a key effector of the innate immune system. This high level of resistance requires a complex network of transcriptional regulators and several genes (oatA, pgdA, dltA and sigV) acting synergistically to inhibit both the enzymatic and cationic antimicrobial peptide activities of lysozyme. We sought to identify novel genes modulating E. faecalis resistance to lysozyme. Random transposon mutagenesis carried out in the quadruple oatA/pgdA/dltA/sigV mutant led to the identification of several independent insertions clustered on the chromosome. These mutations were located in a locus referred to as the enterococcal polysaccharide antigen (EPA) variable region located downstream of the highly conserved epaA-epaR genes proposed to encode a core synthetic machinery. The epa variable region was previously proposed to be responsible for EPA decorations, but the role of this locus remains largely unknown. Here, we show that EPA decoration contributes to resistance towards charged antimicrobials and underpins virulence in the zebrafish model of infection by conferring resistance to phagocytosis. Collectively, our results indicate that the production of the EPA rhamnopolysaccharide backbone is not sufficient to promote E. faecalis infections and reveal an essential role of the modification of this surface polymer for enterococcal pathogenesis. |
| url |
https://doi.org/10.1371/journal.ppat.1007730 |
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