The University of Southampton
×
Filter your search:
University of Southampton Institutional Repository

A rare mutation in SPLUNC1 affects bacterial adherence and invasion in meningococcal disease

A rare mutation in SPLUNC1 affects bacterial adherence and invasion in meningococcal disease
A rare mutation in SPLUNC1 affects bacterial adherence and invasion in meningococcal disease
Background
Neisseria meningitidis (Nm) is a nasopharyngeal commensal carried by healthy individuals. However, invasive infections occurs in a minority of individuals, with devastating consequences. There is evidence that common polymorphisms are associated with invasive meningococcal disease (IMD), but the contributions of rare variants other than those in the complement system have not been determined.

Methods
We identified familial cases of IMD in the UK meningococcal disease study and the European Union Life-Threatening Infectious Disease Study. Candidate genetic variants were identified by whole-exome sequencing of 2 patients with familial IMD. Candidate variants were further validated by in vitro assays.

Results
Exomes of 2 siblings with IMD identified a novel heterozygous missense mutation in BPIFA1/SPLUNC1. Sequencing of 186 other nonfamilial cases identified another unrelated IMD patient with the same mutation. SPLUNC1 is an innate immune defense protein expressed in the nasopharyngeal epithelia; however, its role in invasive infections is unknown. In vitro assays demonstrated that recombinant SPLUNC1 protein inhibits biofilm formation by Nm, and impedes Nm adhesion and invasion of human airway cells. The dominant negative mutant recombinant SPLUNC1 (p.G22E) showed reduced antibiofilm activity, increased meningococcal adhesion, and increased invasion of cells, compared with wild-type SPLUNC1.

Conclusions
A mutation in SPLUNC1 affecting mucosal attachment, biofilm formation, and invasion of mucosal epithelial cells is a new genetic cause of meningococcal disease.
1058-4838
2045–2053
Mashbat, Bayarchimeg
f43d34c6-0297-48f1-ac56-64a1f8a49945
Bellos, Evangelos
719c8ef8-c89d-4231-810a-867dd59d31dc
Hodeib, Stephanie
e3e53681-09b3-465a-b7b6-0f95377e8801
Bidmos, Fadil
5f3a1851-99e7-4f24-ba08-659127d4039f
Thwaites, Ryan S
6ae5e0b0-8d93-497c-bd0f-ad8a7fe5213f
Lu, Yaxuan
daa02c24-cc83-4e7d-bf0b-9c1ae66eb6c3
Wright, Victoria J
62468c38-e55b-4c7c-a78e-08d631ed6243
Herberg, Jethro A
3e07c787-3306-4cc6-94e0-fdea456da504
Klobassa, Daniela S
534b42d8-3fad-4c3e-9d64-239bba04a751
Walton, William G
dd478ec6-2d48-4f40-a50f-a5fbadc6ffaa
Zenz, Werner
6bdeefc9-3417-48f8-be2b-92a93548c7a5
Hansel, Trevor T
1f27a516-1b71-4835-87da-c4de54c1142d
Nadel, Simon
c3539d62-a2ca-49cc-9306-ac66c8d62f89
Langford, Paul R
4b77f8ad-b2a5-41a2-b082-f31aeaf7ab7f
Schlapbach, Luregn J
1db07071-6109-4988-972d-c77e09023dea
Li, Ming-Shi
04243395-4df4-49b4-bf9d-20d2d7f115ea
Redinbo, Matthew R
0fe8cc9b-c366-4f49-89f8-c3267d6cc461
Di, Y Peter
d1d9a57c-73f9-4bb8-beb2-d5c81e9e6543
Levin, Michael
ec4c777f-5746-4eb3-9ab0-d04777539056
Sancho-Shimizu, Vanessa
a12d08a9-edcf-46c1-95ba-d1ca5628b836
Mashbat, Bayarchimeg
f43d34c6-0297-48f1-ac56-64a1f8a49945
Bellos, Evangelos
719c8ef8-c89d-4231-810a-867dd59d31dc
Hodeib, Stephanie
e3e53681-09b3-465a-b7b6-0f95377e8801
Bidmos, Fadil
5f3a1851-99e7-4f24-ba08-659127d4039f
Thwaites, Ryan S
6ae5e0b0-8d93-497c-bd0f-ad8a7fe5213f
Lu, Yaxuan
daa02c24-cc83-4e7d-bf0b-9c1ae66eb6c3
Wright, Victoria J
62468c38-e55b-4c7c-a78e-08d631ed6243
Herberg, Jethro A
3e07c787-3306-4cc6-94e0-fdea456da504
Klobassa, Daniela S
534b42d8-3fad-4c3e-9d64-239bba04a751
Walton, William G
dd478ec6-2d48-4f40-a50f-a5fbadc6ffaa
Zenz, Werner
6bdeefc9-3417-48f8-be2b-92a93548c7a5
Hansel, Trevor T
1f27a516-1b71-4835-87da-c4de54c1142d
Nadel, Simon
c3539d62-a2ca-49cc-9306-ac66c8d62f89
Langford, Paul R
4b77f8ad-b2a5-41a2-b082-f31aeaf7ab7f
Schlapbach, Luregn J
1db07071-6109-4988-972d-c77e09023dea
Li, Ming-Shi
04243395-4df4-49b4-bf9d-20d2d7f115ea
Redinbo, Matthew R
0fe8cc9b-c366-4f49-89f8-c3267d6cc461
Di, Y Peter
d1d9a57c-73f9-4bb8-beb2-d5c81e9e6543
Levin, Michael
ec4c777f-5746-4eb3-9ab0-d04777539056
Sancho-Shimizu, Vanessa
a12d08a9-edcf-46c1-95ba-d1ca5628b836

Mashbat, Bayarchimeg, Bellos, Evangelos, Hodeib, Stephanie, Bidmos, Fadil, Thwaites, Ryan S, Lu, Yaxuan, Wright, Victoria J, Herberg, Jethro A, Klobassa, Daniela S, Walton, William G, Zenz, Werner, Hansel, Trevor T, Nadel, Simon, Langford, Paul R, Schlapbach, Luregn J, Li, Ming-Shi, Redinbo, Matthew R, Di, Y Peter, Levin, Michael and Sancho-Shimizu, Vanessa (2020) A rare mutation in SPLUNC1 affects bacterial adherence and invasion in meningococcal disease. Clinical Infectious Diseases, 70 (10), 2045–2053. (doi:10.1093/cid/ciz600).

Record type: Article

Abstract

Background
Neisseria meningitidis (Nm) is a nasopharyngeal commensal carried by healthy individuals. However, invasive infections occurs in a minority of individuals, with devastating consequences. There is evidence that common polymorphisms are associated with invasive meningococcal disease (IMD), but the contributions of rare variants other than those in the complement system have not been determined.

Methods
We identified familial cases of IMD in the UK meningococcal disease study and the European Union Life-Threatening Infectious Disease Study. Candidate genetic variants were identified by whole-exome sequencing of 2 patients with familial IMD. Candidate variants were further validated by in vitro assays.

Results
Exomes of 2 siblings with IMD identified a novel heterozygous missense mutation in BPIFA1/SPLUNC1. Sequencing of 186 other nonfamilial cases identified another unrelated IMD patient with the same mutation. SPLUNC1 is an innate immune defense protein expressed in the nasopharyngeal epithelia; however, its role in invasive infections is unknown. In vitro assays demonstrated that recombinant SPLUNC1 protein inhibits biofilm formation by Nm, and impedes Nm adhesion and invasion of human airway cells. The dominant negative mutant recombinant SPLUNC1 (p.G22E) showed reduced antibiofilm activity, increased meningococcal adhesion, and increased invasion of cells, compared with wild-type SPLUNC1.

Conclusions
A mutation in SPLUNC1 affecting mucosal attachment, biofilm formation, and invasion of mucosal epithelial cells is a new genetic cause of meningococcal disease.

This record has no associated files available for download.

More information

Published date: 6 May 2020

Identifiers

Local EPrints ID: 500671
URI: http://eprints.soton.ac.uk/id/eprint/500671
DOI: doi:10.1093/cid/ciz600
ISSN: 1058-4838
PURE UUID: 10015ca5-16ea-491b-add2-43aef80ce914
ORCID for Evangelos Bellos: ORCID iD orcid.org/0000-0002-3389-5715

Catalogue record

Date deposited: 08 May 2025 17:08
Last modified: 10 May 2025 02:19

Export record

Altmetrics

Contributors

Author: Bayarchimeg Mashbat
Author: Evangelos Bellos ORCID iD
Author: Stephanie Hodeib
Author: Fadil Bidmos
Author: Ryan S Thwaites
Author: Yaxuan Lu
Author: Victoria J Wright
Author: Jethro A Herberg
Author: Daniela S Klobassa
Author: William G Walton
Author: Werner Zenz
Author: Trevor T Hansel
Author: Simon Nadel
Author: Paul R Langford
Author: Luregn J Schlapbach
Author: Ming-Shi Li
Author: Matthew R Redinbo
Author: Y Peter Di
Author: Michael Levin
Author: Vanessa Sancho-Shimizu

Download statistics

Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.

View more statistics

Library staff additional information
Atom RSS 1.0 RSS 2.0

Contact ePrints Soton: eprints@soton.ac.uk

ePrints Soton supports OAI 2.0 with a base URL of http://eprints.soton.ac.uk/cgi/oai2

This repository has been built using EPrints software, developed at the University of Southampton, but available to everyone to use.

We use cookies to ensure that we give you the best experience on our website. If you continue without changing your settings, we will assume that you are happy to receive cookies on the University of Southampton website.

×