From genomic to LC-MS/MS evidence: Analysis of PfEMP1 in Benin malaria cases.

From genomic to LC-MS/MS evidence: Analysis of PfEMP1 in Benin malaria cases.

BACKGROUND:PfEMP1 is the major protein from parasitic origin involved in the pathophysiology of severe malaria, and PfEMP1 domain subtypes are associated with the infection outcome. In addition, PfEMP1 variability is endless and current publicly available protein repositories do not reflect the high...

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Main Authors: Claire Kamaliddin, David Rombaut, Emilie Guillochon, Jade Royo, Sem Ezinmegnon, Gino Agbota, Stéphanie Huguet, Sayeh Guemouri, Céline Peirera, Romain Coppée, Cédric Broussard, Jules M Alao, Agnès Aubouy, François Guillonneau, Philippe Deloron, Gwladys I Bertin
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2019-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0218012
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spelling doaj-191a83c93eca4694865ad319acec45962021-03-03T20:35:57ZengPublic Library of Science (PLoS)PLoS ONE1932-62032019-01-01146e021801210.1371/journal.pone.0218012From genomic to LC-MS/MS evidence: Analysis of PfEMP1 in Benin malaria cases.Claire KamaliddinDavid RombautEmilie GuillochonJade RoyoSem EzinmegnonGino AgbotaStéphanie HuguetSayeh GuemouriCéline PeireraRomain CoppéeCédric BroussardJules M AlaoAgnès AubouyFrançois GuillonneauPhilippe DeloronGwladys I BertinBACKGROUND:PfEMP1 is the major protein from parasitic origin involved in the pathophysiology of severe malaria, and PfEMP1 domain subtypes are associated with the infection outcome. In addition, PfEMP1 variability is endless and current publicly available protein repositories do not reflect the high diversity of the sequences of PfEMP1 proteins. The identification of PfEMP1 protein sequences expressed with samples remains challenging. The aim of our study is to identify the different PfEMP1 proteins variants expressed within patient samples, and therefore identify PfEMP1 proteins domains expressed by patients presenting uncomplicated malaria or severe malaria in malaria endemic setting in Cotonou, Benin. METHODS:We performed a multi-omic approach to decipher PfEMP1 expression at the patient's level in different clinical settings. Using a combination of whole genome sequencing approach and RNA sequencing, we were able to identify new PfEMP1 sequences and created a new custom protein database. This database was used for protein identification in mass spectrometry analysis. RESULTS:The differential expression analysis of RNAsequencing data shows an increased expression of the var domains transcripts DBLα1.7, DBLα1.1, DBLα2 and DBLβ12 in samples from patients suffering from Cerebral Malaria compared to Uncomplicated Malaria. Our approach allowed us to attribute PfEMP1 sequences to each sample and identify new peptides associated to PfEMP1 proteins in mass spectrometry. CONCLUSION:We highlighted the diversity of the PfEMP1 sequences from field sample compared to reference sequences repositories and confirmed the validity of our approach. These findings should contribute to further vaccine development strategies based on PfEMP1 proteins.https://doi.org/10.1371/journal.pone.0218012
collection DOAJ
language English
format Article
sources DOAJ
author Claire Kamaliddin
David Rombaut
Emilie Guillochon
Jade Royo
Sem Ezinmegnon
Gino Agbota
Stéphanie Huguet
Sayeh Guemouri
Céline Peirera
Romain Coppée
Cédric Broussard
Jules M Alao
Agnès Aubouy
François Guillonneau
Philippe Deloron
Gwladys I Bertin
spellingShingle Claire Kamaliddin
David Rombaut
Emilie Guillochon
Jade Royo
Sem Ezinmegnon
Gino Agbota
Stéphanie Huguet
Sayeh Guemouri
Céline Peirera
Romain Coppée
Cédric Broussard
Jules M Alao
Agnès Aubouy
François Guillonneau
Philippe Deloron
Gwladys I Bertin
From genomic to LC-MS/MS evidence: Analysis of PfEMP1 in Benin malaria cases.
PLoS ONE
author_facet Claire Kamaliddin
David Rombaut
Emilie Guillochon
Jade Royo
Sem Ezinmegnon
Gino Agbota
Stéphanie Huguet
Sayeh Guemouri
Céline Peirera
Romain Coppée
Cédric Broussard
Jules M Alao
Agnès Aubouy
François Guillonneau
Philippe Deloron
Gwladys I Bertin
author_sort Claire Kamaliddin
title From genomic to LC-MS/MS evidence: Analysis of PfEMP1 in Benin malaria cases.
title_short From genomic to LC-MS/MS evidence: Analysis of PfEMP1 in Benin malaria cases.
title_full From genomic to LC-MS/MS evidence: Analysis of PfEMP1 in Benin malaria cases.
title_fullStr From genomic to LC-MS/MS evidence: Analysis of PfEMP1 in Benin malaria cases.
title_full_unstemmed From genomic to LC-MS/MS evidence: Analysis of PfEMP1 in Benin malaria cases.
title_sort from genomic to lc-ms/ms evidence: analysis of pfemp1 in benin malaria cases.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2019-01-01
description BACKGROUND:PfEMP1 is the major protein from parasitic origin involved in the pathophysiology of severe malaria, and PfEMP1 domain subtypes are associated with the infection outcome. In addition, PfEMP1 variability is endless and current publicly available protein repositories do not reflect the high diversity of the sequences of PfEMP1 proteins. The identification of PfEMP1 protein sequences expressed with samples remains challenging. The aim of our study is to identify the different PfEMP1 proteins variants expressed within patient samples, and therefore identify PfEMP1 proteins domains expressed by patients presenting uncomplicated malaria or severe malaria in malaria endemic setting in Cotonou, Benin. METHODS:We performed a multi-omic approach to decipher PfEMP1 expression at the patient's level in different clinical settings. Using a combination of whole genome sequencing approach and RNA sequencing, we were able to identify new PfEMP1 sequences and created a new custom protein database. This database was used for protein identification in mass spectrometry analysis. RESULTS:The differential expression analysis of RNAsequencing data shows an increased expression of the var domains transcripts DBLα1.7, DBLα1.1, DBLα2 and DBLβ12 in samples from patients suffering from Cerebral Malaria compared to Uncomplicated Malaria. Our approach allowed us to attribute PfEMP1 sequences to each sample and identify new peptides associated to PfEMP1 proteins in mass spectrometry. CONCLUSION:We highlighted the diversity of the PfEMP1 sequences from field sample compared to reference sequences repositories and confirmed the validity of our approach. These findings should contribute to further vaccine development strategies based on PfEMP1 proteins.
url https://doi.org/10.1371/journal.pone.0218012
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