Necrotrophic growth of periodontopathogens is a novel virulence factor in oral biofilms

Necrotrophic growth of periodontopathogens is a novel virulence factor in oral biofilms

Abstract The oral use of antimicrobial agents embedded in toothpastes and mouth rinses results in an oral microbial massacre with high amounts of dead bacteria in close proximity to few surviving bacteria. It was hypothesized that this provides the surviving pathogenic bacteria a large amount of dea...

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Main Authors: Esteban Rodriguez Herrero, Nico Boon, Martine Pauwels, Kristel Bernaerts, Vera Slomka, Marc Quirynen, Wim Teughels
Format: Article
Language:English
Published: Nature Publishing Group 2017-04-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-01239-9
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spelling doaj-a4a4224de62d4dfbaa7b6d65622e3bd52020-12-08T02:01:00ZengNature Publishing GroupScientific Reports2045-23222017-04-017111010.1038/s41598-017-01239-9Necrotrophic growth of periodontopathogens is a novel virulence factor in oral biofilmsEsteban Rodriguez Herrero0Nico Boon1Martine Pauwels2Kristel Bernaerts3Vera Slomka4Marc Quirynen5Wim Teughels6Department of Oral Health Sciences, KU LeuvenCenter for Microbial Ecology and Technology (CMET), Ghent UniversityDepartment of Oral Health Sciences, KU LeuvenBio- and Chemical Systems Technology, Reactor Engineering and Safety, Department of Chemical Engineering, KU Leuven (University of Leuven), Leuven Chem&TechDepartment of Oral Health Sciences, KU LeuvenDepartment of Oral Health Sciences, KU LeuvenDepartment of Oral Health Sciences, KU LeuvenAbstract The oral use of antimicrobial agents embedded in toothpastes and mouth rinses results in an oral microbial massacre with high amounts of dead bacteria in close proximity to few surviving bacteria. It was hypothesized that this provides the surviving pathogenic bacteria a large amount of dead microbial biomass as a nutritional source for growth (necrotrophy). This study demonstrated the necrotrophic growth of periodontal pathogens in the presence of different dead oral species. In addition, the presence of dead bacteria resulted in an outgrowth of several periodontal pathogens in complex multi-species biofilms. Additionally, upon contact with dead oral bacteria, virulence genes of P. intermedia and P. gingivalis were up-regulated (necrovirulence). This resulted in a more pronounced epithelial cytotoxicity (necrotoxicity). These findings indicate that presence of dead bacteria induce necrotrophy, necrovirulence and necrotoxicity in several oral pathogens.https://doi.org/10.1038/s41598-017-01239-9
collection DOAJ
language English
format Article
sources DOAJ
author Esteban Rodriguez Herrero
Nico Boon
Martine Pauwels
Kristel Bernaerts
Vera Slomka
Marc Quirynen
Wim Teughels
spellingShingle Esteban Rodriguez Herrero
Nico Boon
Martine Pauwels
Kristel Bernaerts
Vera Slomka
Marc Quirynen
Wim Teughels
Necrotrophic growth of periodontopathogens is a novel virulence factor in oral biofilms
Scientific Reports
author_facet Esteban Rodriguez Herrero
Nico Boon
Martine Pauwels
Kristel Bernaerts
Vera Slomka
Marc Quirynen
Wim Teughels
author_sort Esteban Rodriguez Herrero
title Necrotrophic growth of periodontopathogens is a novel virulence factor in oral biofilms
title_short Necrotrophic growth of periodontopathogens is a novel virulence factor in oral biofilms
title_full Necrotrophic growth of periodontopathogens is a novel virulence factor in oral biofilms
title_fullStr Necrotrophic growth of periodontopathogens is a novel virulence factor in oral biofilms
title_full_unstemmed Necrotrophic growth of periodontopathogens is a novel virulence factor in oral biofilms
title_sort necrotrophic growth of periodontopathogens is a novel virulence factor in oral biofilms
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-04-01
description Abstract The oral use of antimicrobial agents embedded in toothpastes and mouth rinses results in an oral microbial massacre with high amounts of dead bacteria in close proximity to few surviving bacteria. It was hypothesized that this provides the surviving pathogenic bacteria a large amount of dead microbial biomass as a nutritional source for growth (necrotrophy). This study demonstrated the necrotrophic growth of periodontal pathogens in the presence of different dead oral species. In addition, the presence of dead bacteria resulted in an outgrowth of several periodontal pathogens in complex multi-species biofilms. Additionally, upon contact with dead oral bacteria, virulence genes of P. intermedia and P. gingivalis were up-regulated (necrovirulence). This resulted in a more pronounced epithelial cytotoxicity (necrotoxicity). These findings indicate that presence of dead bacteria induce necrotrophy, necrovirulence and necrotoxicity in several oral pathogens.
url https://doi.org/10.1038/s41598-017-01239-9
work_keys_str_mv AT estebanrodriguezherrero necrotrophicgrowthofperiodontopathogensisanovelvirulencefactorinoralbiofilms
AT nicoboon necrotrophicgrowthofperiodontopathogensisanovelvirulencefactorinoralbiofilms
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AT veraslomka necrotrophicgrowthofperiodontopathogensisanovelvirulencefactorinoralbiofilms
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