Comparison of the Whole Cell Proteome and Secretome of Epidemic Bordetella pertussis Strains From the 2008–2012 Australian Epidemic Under Sulfate-Modulating Conditions

Comparison of the Whole Cell Proteome and Secretome of Epidemic Bordetella pertussis Strains From the 2008–2012 Australian Epidemic Under Sulfate-Modulating Conditions

Sulfate is an important modulator for virulence factor expression in Bordetella pertussis, the causative organism for whooping cough. During infection, sulfate is released when respiratory epithelial cells are damaged which can affect gene expression. The current predominant strains in Australia are...

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Main Authors: Laurence Don Wai Luu, Sophie Octavia, Ling Zhong, Mark J. Raftery, Vitali Sintchenko, Ruiting Lan
Format: Article
Language:English
Published: Frontiers Media S.A. 2018-11-01
Series:Frontiers in Microbiology
Subjects:
acellular vaccine
Bordetella pertussis
iTRAQ
proteomics
secretome
MRM-hr
Online Access:https://www.frontiersin.org/article/10.3389/fmicb.2018.02851/full
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spelling doaj-8e8573ea1dca4b2d9bad96aad93c6b872020-11-24T21:22:37ZengFrontiers Media S.A.Frontiers in Microbiology1664-302X2018-11-01910.3389/fmicb.2018.02851384640Comparison of the Whole Cell Proteome and Secretome of Epidemic Bordetella pertussis Strains From the 2008–2012 Australian Epidemic Under Sulfate-Modulating ConditionsLaurence Don Wai Luu0Sophie Octavia1Ling Zhong2Mark J. Raftery3Vitali Sintchenko4Vitali Sintchenko5Ruiting Lan6School of Biotechnology and Biomolecular Sciences, University of New South Wales, Sydney, NSW, AustraliaSchool of Biotechnology and Biomolecular Sciences, University of New South Wales, Sydney, NSW, AustraliaBioanalytical Mass Spectrometry Facility, University of New South Wales, Sydney, NSW, AustraliaBioanalytical Mass Spectrometry Facility, University of New South Wales, Sydney, NSW, AustraliaCentre for Infectious Diseases and Microbiology–Public Health, Institute of Clinical Pathology and Medical Research – NSW Health Pathology, Westmead Hospital, Sydney, NSW, AustraliaMarie Bashir Institute for Infectious Diseases and Biosecurity, Sydney Medical School, University of Sydney, Sydney, NSW, AustraliaSchool of Biotechnology and Biomolecular Sciences, University of New South Wales, Sydney, NSW, AustraliaSulfate is an important modulator for virulence factor expression in Bordetella pertussis, the causative organism for whooping cough. During infection, sulfate is released when respiratory epithelial cells are damaged which can affect gene expression. The current predominant strains in Australia are found in single nucleotide polymorphism (SNP) cluster I (ptxP3/prn2). It has been reported that ptxP3 strains have higher mRNA expression of virulence genes than ptxP1 strains under intermediate sulfate-modulating conditions (5 mM MgSO4). Our previous proteomic study compared L1423 (cluster I, ptxP3) and L1191 (cluster II, ptxP1) in Thalen–IJssel (THIJS) media without sulfate modulation and identified an upregulation of transport proteins and a downregulation of immunogenic proteins. To determine whether proteomic differences exist between cluster I and cluster II strains in intermediate modulating conditions, this study compared the whole cell proteome and secretome between L1423 and L1191 grown in THIJS media with 5 mM MgSO4 using iTRAQ and high-resolution multiple reaction monitoring (MRM-hr). Two proteins (BP0200 and BP1175) in the whole cell were upregulated in L1423 [fold change (FC) >1.2, false discovery rate (FDR) <0.05]. In the secretome, four proteins from the type III secretion system (T3SS) effectors were downregulated (FC < 0.8, FDR < 0.05) while six proteins, including two adhesins, pertactin (Prn) and tracheal colonization factor A (TcfA), were upregulated which were consistent with our previous proteomic study. The upregulation of Prn and TcfA in SNP cluster I may result in improved adhesion while the downregulation of the T3SS and other immunogenic proteins may reduce immune recognition, which may contribute to the increased fitness of cluster I B. pertussis strains.https://www.frontiersin.org/article/10.3389/fmicb.2018.02851/fullacellular vaccineBordetella pertussisiTRAQproteomicssecretomeMRM-hr
collection DOAJ
language English
format Article
sources DOAJ
author Laurence Don Wai Luu
Sophie Octavia
Ling Zhong
Mark J. Raftery
Vitali Sintchenko
Vitali Sintchenko
Ruiting Lan
spellingShingle Laurence Don Wai Luu
Sophie Octavia
Ling Zhong
Mark J. Raftery
Vitali Sintchenko
Vitali Sintchenko
Ruiting Lan
Comparison of the Whole Cell Proteome and Secretome of Epidemic Bordetella pertussis Strains From the 2008–2012 Australian Epidemic Under Sulfate-Modulating Conditions
Frontiers in Microbiology
acellular vaccine
Bordetella pertussis
iTRAQ
proteomics
secretome
MRM-hr
author_facet Laurence Don Wai Luu
Sophie Octavia
Ling Zhong
Mark J. Raftery
Vitali Sintchenko
Vitali Sintchenko
Ruiting Lan
author_sort Laurence Don Wai Luu
title Comparison of the Whole Cell Proteome and Secretome of Epidemic Bordetella pertussis Strains From the 2008–2012 Australian Epidemic Under Sulfate-Modulating Conditions
title_short Comparison of the Whole Cell Proteome and Secretome of Epidemic Bordetella pertussis Strains From the 2008–2012 Australian Epidemic Under Sulfate-Modulating Conditions
title_full Comparison of the Whole Cell Proteome and Secretome of Epidemic Bordetella pertussis Strains From the 2008–2012 Australian Epidemic Under Sulfate-Modulating Conditions
title_fullStr Comparison of the Whole Cell Proteome and Secretome of Epidemic Bordetella pertussis Strains From the 2008–2012 Australian Epidemic Under Sulfate-Modulating Conditions
title_full_unstemmed Comparison of the Whole Cell Proteome and Secretome of Epidemic Bordetella pertussis Strains From the 2008–2012 Australian Epidemic Under Sulfate-Modulating Conditions
title_sort comparison of the whole cell proteome and secretome of epidemic bordetella pertussis strains from the 2008–2012 australian epidemic under sulfate-modulating conditions
publisher Frontiers Media S.A.
series Frontiers in Microbiology
issn 1664-302X
publishDate 2018-11-01
description Sulfate is an important modulator for virulence factor expression in Bordetella pertussis, the causative organism for whooping cough. During infection, sulfate is released when respiratory epithelial cells are damaged which can affect gene expression. The current predominant strains in Australia are found in single nucleotide polymorphism (SNP) cluster I (ptxP3/prn2). It has been reported that ptxP3 strains have higher mRNA expression of virulence genes than ptxP1 strains under intermediate sulfate-modulating conditions (5 mM MgSO4). Our previous proteomic study compared L1423 (cluster I, ptxP3) and L1191 (cluster II, ptxP1) in Thalen–IJssel (THIJS) media without sulfate modulation and identified an upregulation of transport proteins and a downregulation of immunogenic proteins. To determine whether proteomic differences exist between cluster I and cluster II strains in intermediate modulating conditions, this study compared the whole cell proteome and secretome between L1423 and L1191 grown in THIJS media with 5 mM MgSO4 using iTRAQ and high-resolution multiple reaction monitoring (MRM-hr). Two proteins (BP0200 and BP1175) in the whole cell were upregulated in L1423 [fold change (FC) >1.2, false discovery rate (FDR) <0.05]. In the secretome, four proteins from the type III secretion system (T3SS) effectors were downregulated (FC < 0.8, FDR < 0.05) while six proteins, including two adhesins, pertactin (Prn) and tracheal colonization factor A (TcfA), were upregulated which were consistent with our previous proteomic study. The upregulation of Prn and TcfA in SNP cluster I may result in improved adhesion while the downregulation of the T3SS and other immunogenic proteins may reduce immune recognition, which may contribute to the increased fitness of cluster I B. pertussis strains.
topic acellular vaccine
Bordetella pertussis
iTRAQ
proteomics
secretome
MRM-hr
url https://www.frontiersin.org/article/10.3389/fmicb.2018.02851/full
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