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Assessing the Role of Pharyngeal Cell Surface Glycans in Group A Streptococcus Biofilm Formation

Group A Streptococcus (GAS) causes 700 million infections and accounts for half a million deaths per year. Antibiotic treatment failure rates of 20–40% have been observed. The role host cell glycans play in GAS biofilm formation in the context of GAS pharyngitis and subsequent antibiotic treatment f...

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Autores principales: Vyas, Heema K. N., Indraratna, Anuk D., Everest-Dass, Arun, Packer, Nicolle H., De Oliveira, David M. P., Ranson, Marie, McArthur, Jason D., Sanderson-Smith, Martina L.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2020
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7694240/
https://www.ncbi.nlm.nih.gov/pubmed/33158121
http://dx.doi.org/10.3390/antibiotics9110775
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author Vyas, Heema K. N.
Indraratna, Anuk D.
Everest-Dass, Arun
Packer, Nicolle H.
De Oliveira, David M. P.
Ranson, Marie
McArthur, Jason D.
Sanderson-Smith, Martina L.
author_facet Vyas, Heema K. N.
Indraratna, Anuk D.
Everest-Dass, Arun
Packer, Nicolle H.
De Oliveira, David M. P.
Ranson, Marie
McArthur, Jason D.
Sanderson-Smith, Martina L.
author_sort Vyas, Heema K. N.
collection PubMed
description Group A Streptococcus (GAS) causes 700 million infections and accounts for half a million deaths per year. Antibiotic treatment failure rates of 20–40% have been observed. The role host cell glycans play in GAS biofilm formation in the context of GAS pharyngitis and subsequent antibiotic treatment failure has not been previously investigated. GAS serotype M12 GAS biofilms were assessed for biofilm formation on Detroit 562 pharyngeal cell monolayers following enzymatic removal of all N-linked glycans from pharyngeal cells with PNGase F. Removal of N-linked glycans resulted in an increase in biofilm biomass compared to untreated controls. Further investigation into the removal of terminal mannose and sialic acid residues with α1-6 mannosidase and the broad specificity sialidase (Sialidase A) also found that biofilm biomass increased significantly when compared to untreated controls. Increases in biofilm biomass were associated with increased production of extracellular polymeric substances (EPS). Furthermore, it was found that M12 GAS biofilms grown on untreated pharyngeal monolayers exhibited a 2500-fold increase in penicillin tolerance compared to planktonic GAS. Pre-treatment of monolayers with exoglycosidases resulted in a further doubling of penicillin tolerance in resultant biofilms. Lastly, an additional eight GAS emm-types were assessed for biofilm formation in response to terminal mannose and sialic acid residue removal. As seen for M12, biofilm biomass on monolayers increased following removal of terminal mannose and sialic acid residues. Collectively, these data demonstrate that pharyngeal cell surface glycan structures directly impact GAS biofilm formation in a strain and glycan specific fashion.
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spelling pubmed-76942402020-11-28 Assessing the Role of Pharyngeal Cell Surface Glycans in Group A Streptococcus Biofilm Formation Vyas, Heema K. N. Indraratna, Anuk D. Everest-Dass, Arun Packer, Nicolle H. De Oliveira, David M. P. Ranson, Marie McArthur, Jason D. Sanderson-Smith, Martina L. Antibiotics (Basel) Article Group A Streptococcus (GAS) causes 700 million infections and accounts for half a million deaths per year. Antibiotic treatment failure rates of 20–40% have been observed. The role host cell glycans play in GAS biofilm formation in the context of GAS pharyngitis and subsequent antibiotic treatment failure has not been previously investigated. GAS serotype M12 GAS biofilms were assessed for biofilm formation on Detroit 562 pharyngeal cell monolayers following enzymatic removal of all N-linked glycans from pharyngeal cells with PNGase F. Removal of N-linked glycans resulted in an increase in biofilm biomass compared to untreated controls. Further investigation into the removal of terminal mannose and sialic acid residues with α1-6 mannosidase and the broad specificity sialidase (Sialidase A) also found that biofilm biomass increased significantly when compared to untreated controls. Increases in biofilm biomass were associated with increased production of extracellular polymeric substances (EPS). Furthermore, it was found that M12 GAS biofilms grown on untreated pharyngeal monolayers exhibited a 2500-fold increase in penicillin tolerance compared to planktonic GAS. Pre-treatment of monolayers with exoglycosidases resulted in a further doubling of penicillin tolerance in resultant biofilms. Lastly, an additional eight GAS emm-types were assessed for biofilm formation in response to terminal mannose and sialic acid residue removal. As seen for M12, biofilm biomass on monolayers increased following removal of terminal mannose and sialic acid residues. Collectively, these data demonstrate that pharyngeal cell surface glycan structures directly impact GAS biofilm formation in a strain and glycan specific fashion. MDPI 2020-11-04 /pmc/articles/PMC7694240/ /pubmed/33158121 http://dx.doi.org/10.3390/antibiotics9110775 Text en © 2020 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Vyas, Heema K. N.
Indraratna, Anuk D.
Everest-Dass, Arun
Packer, Nicolle H.
De Oliveira, David M. P.
Ranson, Marie
McArthur, Jason D.
Sanderson-Smith, Martina L.
Assessing the Role of Pharyngeal Cell Surface Glycans in Group A Streptococcus Biofilm Formation
title Assessing the Role of Pharyngeal Cell Surface Glycans in Group A Streptococcus Biofilm Formation
title_full Assessing the Role of Pharyngeal Cell Surface Glycans in Group A Streptococcus Biofilm Formation
title_fullStr Assessing the Role of Pharyngeal Cell Surface Glycans in Group A Streptococcus Biofilm Formation
title_full_unstemmed Assessing the Role of Pharyngeal Cell Surface Glycans in Group A Streptococcus Biofilm Formation
title_short Assessing the Role of Pharyngeal Cell Surface Glycans in Group A Streptococcus Biofilm Formation
title_sort assessing the role of pharyngeal cell surface glycans in group a streptococcus biofilm formation
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7694240/
https://www.ncbi.nlm.nih.gov/pubmed/33158121
http://dx.doi.org/10.3390/antibiotics9110775
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