Abstract
Non-coding genetic variants play an important role in driving susceptibility to complex diseases but their characterization remains challenging. Here, we employed a novel approach to interrogate the genetic risk of such polymorphisms in a more systematic way by targeting specific regulatory regions relevant for the phenotype studied. We applied this method to meningococcal disease susceptibility, using the DNA binding pattern of RELA – a NF-kB subunit, master regulator of the response to infection – under bacterial stimuli in nasopharyngeal epithelial cells. We designed a custom panel to cover these RELA binding sites and used it for targeted sequencing in cases and controls. Variant calling and association analysis were performed followed by validation of candidate polymorphisms by genotyping in three independent cohorts. We identified two new polymorphisms, rs4823231 and rs11913168, showing signs of association with meningococcal disease susceptibility. In addition, using our genomic data as well as publicly available resources, we found evidences for these SNPs to have potential regulatory effects on ATXN10 and LIF genes respectively. The variants and related candidate genes are relevant for infectious diseases and may have important contribution for meningococcal disease pathology. Finally, we described a novel genetic association approach that could be applied to other phenotypes.
Originalsprache | Englisch |
---|---|
Aufsatznummer | 6966 |
Zeitschrift | Scientific Reports |
Jahrgang | 9 |
Ausgabenummer | 1 |
ISSN | 2045-2322 |
DOIs | |
Publikationsstatus | Veröffentlicht - 01.12.2019 |
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}
in: Scientific Reports, Jahrgang 9, Nr. 1, 6966, 01.12.2019.
Publikation: Beiträge in Fachzeitschriften › Zeitschriftenaufsätze › Forschung › Begutachtung
TY - JOUR
T1 - Identification of regulatory variants associated with genetic susceptibility to meningococcal disease
AU - EUCLIDS consortium
AU - Borghini, Lisa
AU - Png, Eileen
AU - Binder, Alexander
AU - Wright, Victoria J.
AU - Pinnock, Ellie
AU - de Groot, Ronald
AU - Hazelzet, Jan
AU - Emonts, Marieke
AU - Van der Flier, Michiel
AU - Schlapbach, Luregn J.
AU - Anderson, Suzanne
AU - Secka, Fatou
AU - Salas, Antonio
AU - Fink, Colin
AU - Carrol, Enitan D.
AU - Pollard, Andrew J.
AU - Coin, Lachlan J.
AU - Kuijpers, Taco W.
AU - Martinon-Torres, Federico
AU - Zenz, Werner
AU - Levin, Michael
AU - Hibberd, Martin L.
AU - Davila, Sonia
AU - Gormley, Stuart
AU - Hamilton, Shea
AU - Herberg, Jethro
AU - Hourmat, Bernardo
AU - Hoggart, Clive
AU - Kaforou, Myrsini
AU - Sancho-Shimizu, Vanessa
AU - Abdulla, Amina
AU - Agapow, Paul
AU - Bartlett, Maeve
AU - Bellos, Evangelos
AU - Eleftherohorinou, Hariklia
AU - Galassini, Rachel
AU - Inwald, David
AU - Mashbat, Meg
AU - Menikou, Stefanie
AU - Mustafa, Sobia
AU - Nadel, Simon
AU - Rahman, Rahmeen
AU - Thakker, Clare
AU - Bokhandi, S.
AU - Power, Sue
AU - Barham, Heather
AU - Pathan, N.
AU - Ridout, Jenna
AU - Herting, Egbert
AU - Göpel, Wolfgang
N1 - Funding Information: We thank Kumar Vikrant for his advices on the association analysis as well as Phua Zai Yang for his help on the library preparation and hybridization. The Next Generation Sequencing Platform and the Research Pipeline Development team at the Genome Institute of Singapore made the sequencing possible as well as data processing and mapping of the reads. In addition, we acknowledge A*STAR for the SINGA scholarship awarded to LB. Finally, we would like to thank all children and parents who participated in this study. S.D., E.P., M.H. and L.B. were supported by the Agency for Science Technology and Research of Singapore (A*STAR). This work has been partially funded by the European Seventh Framework Programme for Research and Technological Development (FP7) under EUCLIDS Grant Agreement No. 279185. The UK meningococcal cohort was established with support from Meningitis Research Foundation through grants to Imperial College London. The Research from Newcastle partners was supported by the National Institute for Health Research Newcastle Biomedical Research Centre based at Newcastle Hospitals NHS Foundation Trust and Newcastle University. The views expressed are those of the author(s) and not necessarily those of the NHS, the NIHR or the Department of Health. The ESIGEM Research group activities were supported by grants from Instituto de Salud Carlos III (Proyecto de Investigación en Salud, Acción Estratégica en Salud: proyecto GePEM PI16/01478) (A.S.); Consellería de Sanidade, Xunta de Galicia (RHI07/2-intensificación actividad investigadora, PS09749 and 10PXIB918184PR), Instituto de Salud Carlos III (Intensificación de la actividad investigadora 2007–2016), Convenio de colaboración de investigación (Wyeth España-Fundación IDICHUS 2007–2011), Convenio de colaboración de investigación (Novartis España-Fundación IDICHUS 2010–2011), Fondo de Investigación Sanitaria (FIS; PI070069/PI1000540) del plan nacional de I + D + I and ‘fondos FEDER’ (F.M.T.). The Swiss Pediatric Sepsis study was funded by grants from the Swiss National Science Foundation (342730_153158/1), the Swiss Society of Intensive Care, the Bangerter Foundation, the Vinetum and Borer Foundation, and the Foundation for the Health of Children and Adolescents. The Western Europe Meningococcal Study was supported by grants no 8842, 10112 and 12710 of the Oesterreichische Nationalbank (Austria), grants A3-16.K-8/2008-11 and A3-16.K-8/2006–9 of the Department for Science and Research of the Styrian federal government (Austria) and the non for profit association ‘In Vita’, Graz (Austria). Publisher Copyright: © 2019, The Author(s). Copyright: Copyright 2019 Elsevier B.V., All rights reserved.
PY - 2019/12/1
Y1 - 2019/12/1
N2 - Non-coding genetic variants play an important role in driving susceptibility to complex diseases but their characterization remains challenging. Here, we employed a novel approach to interrogate the genetic risk of such polymorphisms in a more systematic way by targeting specific regulatory regions relevant for the phenotype studied. We applied this method to meningococcal disease susceptibility, using the DNA binding pattern of RELA – a NF-kB subunit, master regulator of the response to infection – under bacterial stimuli in nasopharyngeal epithelial cells. We designed a custom panel to cover these RELA binding sites and used it for targeted sequencing in cases and controls. Variant calling and association analysis were performed followed by validation of candidate polymorphisms by genotyping in three independent cohorts. We identified two new polymorphisms, rs4823231 and rs11913168, showing signs of association with meningococcal disease susceptibility. In addition, using our genomic data as well as publicly available resources, we found evidences for these SNPs to have potential regulatory effects on ATXN10 and LIF genes respectively. The variants and related candidate genes are relevant for infectious diseases and may have important contribution for meningococcal disease pathology. Finally, we described a novel genetic association approach that could be applied to other phenotypes.
AB - Non-coding genetic variants play an important role in driving susceptibility to complex diseases but their characterization remains challenging. Here, we employed a novel approach to interrogate the genetic risk of such polymorphisms in a more systematic way by targeting specific regulatory regions relevant for the phenotype studied. We applied this method to meningococcal disease susceptibility, using the DNA binding pattern of RELA – a NF-kB subunit, master regulator of the response to infection – under bacterial stimuli in nasopharyngeal epithelial cells. We designed a custom panel to cover these RELA binding sites and used it for targeted sequencing in cases and controls. Variant calling and association analysis were performed followed by validation of candidate polymorphisms by genotyping in three independent cohorts. We identified two new polymorphisms, rs4823231 and rs11913168, showing signs of association with meningococcal disease susceptibility. In addition, using our genomic data as well as publicly available resources, we found evidences for these SNPs to have potential regulatory effects on ATXN10 and LIF genes respectively. The variants and related candidate genes are relevant for infectious diseases and may have important contribution for meningococcal disease pathology. Finally, we described a novel genetic association approach that could be applied to other phenotypes.
UR - http://www.scopus.com/inward/record.url?scp=85065322281&partnerID=8YFLogxK
U2 - 10.1038/s41598-019-43292-6
DO - 10.1038/s41598-019-43292-6
M3 - Journal articles
C2 - 31061469
AN - SCOPUS:85065322281
SN - 2045-2322
VL - 9
JO - Scientific Reports
JF - Scientific Reports
IS - 1
M1 - 6966
ER -