Dual role for pilus in adherence to epithelial cells and biofilm formation in Streptococcus agalactiae.
Streptococcus agalactiae is a common human commensal and a major life-threatening pathogen in neonates. Adherence to host epithelial cells is the first critical step of the infectious process. Pili have been observed on the surface of several gram-positive bacteria including S. agalactiae. We previo...
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doaj-b60477d291964540857050f0d20ff6222021-04-21T17:23:27ZengPublic Library of Science (PLoS)PLoS Pathogens1553-73661553-73742009-05-0155e100042210.1371/journal.ppat.1000422Dual role for pilus in adherence to epithelial cells and biofilm formation in Streptococcus agalactiae.Yoan Konto-GhiorghiEmilie MaireyAdeline MalletGuillaume DuménilElise CaliotPatrick Trieu-CuotShaynoor DramsiStreptococcus agalactiae is a common human commensal and a major life-threatening pathogen in neonates. Adherence to host epithelial cells is the first critical step of the infectious process. Pili have been observed on the surface of several gram-positive bacteria including S. agalactiae. We previously characterized the pilus-encoding operon gbs1479-1474 in strain NEM316. This pilus is composed of three structural subunit proteins: Gbs1478 (PilA), Gbs1477 (PilB), and Gbs1474 (PilC), and its assembly involves two class C sortases (SrtC3 and SrtC4). PilB, the bona fide pilin, is the major component; PilA, the pilus associated adhesin, and PilC, are both accessory proteins incorporated into the pilus backbone. We first addressed the role of the housekeeping sortase A in pilus biogenesis and showed that it is essential for the covalent anchoring of the pilus fiber to the peptidoglycan. We next aimed at understanding the role of the pilus fiber in bacterial adherence and at resolving the paradox of an adhesive but dispensable pilus. Combining immunoblotting and electron microscopy analyses, we showed that the PilB fiber is essential for efficient PilA display on the surface of the capsulated strain NEM316. We then demonstrated that pilus integrity becomes critical for adherence to respiratory epithelial cells under flow-conditions mimicking an in vivo situation and revealing the limitations of the commonly used static adherence model. Interestingly, PilA exhibits a von Willebrand adhesion domain (VWA) found in many extracellular eucaryotic proteins. We show here that the VWA domain of PilA is essential for its adhesive function, demonstrating for the first time the functionality of a prokaryotic VWA homolog. Furthermore, the auto aggregative phenotype of NEM316 observed in standing liquid culture was strongly reduced in all three individual pilus mutants. S. agalactiae strain NEM316 was able to form biofilm in microtiter plate and, strikingly, the PilA and PilB mutants were strongly impaired in biofilm formation. Surprisingly, the VWA domain involved in adherence to epithelial cells was not required for biofilm formation.https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/19424490/?tool=EBI |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Yoan Konto-Ghiorghi Emilie Mairey Adeline Mallet Guillaume Duménil Elise Caliot Patrick Trieu-Cuot Shaynoor Dramsi |
spellingShingle |
Yoan Konto-Ghiorghi Emilie Mairey Adeline Mallet Guillaume Duménil Elise Caliot Patrick Trieu-Cuot Shaynoor Dramsi Dual role for pilus in adherence to epithelial cells and biofilm formation in Streptococcus agalactiae. PLoS Pathogens |
author_facet |
Yoan Konto-Ghiorghi Emilie Mairey Adeline Mallet Guillaume Duménil Elise Caliot Patrick Trieu-Cuot Shaynoor Dramsi |
author_sort |
Yoan Konto-Ghiorghi |
title |
Dual role for pilus in adherence to epithelial cells and biofilm formation in Streptococcus agalactiae. |
title_short |
Dual role for pilus in adherence to epithelial cells and biofilm formation in Streptococcus agalactiae. |
title_full |
Dual role for pilus in adherence to epithelial cells and biofilm formation in Streptococcus agalactiae. |
title_fullStr |
Dual role for pilus in adherence to epithelial cells and biofilm formation in Streptococcus agalactiae. |
title_full_unstemmed |
Dual role for pilus in adherence to epithelial cells and biofilm formation in Streptococcus agalactiae. |
title_sort |
dual role for pilus in adherence to epithelial cells and biofilm formation in streptococcus agalactiae. |
publisher |
Public Library of Science (PLoS) |
series |
PLoS Pathogens |
issn |
1553-7366 1553-7374 |
publishDate |
2009-05-01 |
description |
Streptococcus agalactiae is a common human commensal and a major life-threatening pathogen in neonates. Adherence to host epithelial cells is the first critical step of the infectious process. Pili have been observed on the surface of several gram-positive bacteria including S. agalactiae. We previously characterized the pilus-encoding operon gbs1479-1474 in strain NEM316. This pilus is composed of three structural subunit proteins: Gbs1478 (PilA), Gbs1477 (PilB), and Gbs1474 (PilC), and its assembly involves two class C sortases (SrtC3 and SrtC4). PilB, the bona fide pilin, is the major component; PilA, the pilus associated adhesin, and PilC, are both accessory proteins incorporated into the pilus backbone. We first addressed the role of the housekeeping sortase A in pilus biogenesis and showed that it is essential for the covalent anchoring of the pilus fiber to the peptidoglycan. We next aimed at understanding the role of the pilus fiber in bacterial adherence and at resolving the paradox of an adhesive but dispensable pilus. Combining immunoblotting and electron microscopy analyses, we showed that the PilB fiber is essential for efficient PilA display on the surface of the capsulated strain NEM316. We then demonstrated that pilus integrity becomes critical for adherence to respiratory epithelial cells under flow-conditions mimicking an in vivo situation and revealing the limitations of the commonly used static adherence model. Interestingly, PilA exhibits a von Willebrand adhesion domain (VWA) found in many extracellular eucaryotic proteins. We show here that the VWA domain of PilA is essential for its adhesive function, demonstrating for the first time the functionality of a prokaryotic VWA homolog. Furthermore, the auto aggregative phenotype of NEM316 observed in standing liquid culture was strongly reduced in all three individual pilus mutants. S. agalactiae strain NEM316 was able to form biofilm in microtiter plate and, strikingly, the PilA and PilB mutants were strongly impaired in biofilm formation. Surprisingly, the VWA domain involved in adherence to epithelial cells was not required for biofilm formation. |
url |
https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/19424490/?tool=EBI |
work_keys_str_mv |
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