NADH oxidase functions as an adhesin in Streptococcus pneumoniae and elicits a protective immune response in mice.

NADH oxidase functions as an adhesin in Streptococcus pneumoniae and elicits a protective immune response in mice.

The initial event in disease caused by S. pneumoniae is adhesion of the bacterium to respiratory epithelial cells, mediated by surface expressed molecules including cell-wall proteins. NADH oxidase (NOX), which reduces free oxygen to water in the cytoplasm, was identified in a non-lectin enriched pn...

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Main Authors: Lena Muchnik, Asad Adawi, Ariel Ohayon, Shahar Dotan, Itai Malka, Shalhevet Azriel, Marilou Shagan, Maxim Portnoi, Daniel Kafka, Hannie Nahmani, Angel Porgador, Jonathan M Gershoni, Donald A Morrison, Andrea Mitchell, Michael Tal, Ronald Ellis, Ron Dagan, Yaffa Mizrachi Nebenzahl
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2013-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3620118?pdf=render
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spelling doaj-ef419932f9c74b6dabf1dea1daf90cd92020-11-25T02:08:42ZengPublic Library of Science (PLoS)PLoS ONE1932-62032013-01-0184e6112810.1371/journal.pone.0061128NADH oxidase functions as an adhesin in Streptococcus pneumoniae and elicits a protective immune response in mice.Lena MuchnikAsad AdawiAriel OhayonShahar DotanItai MalkaShalhevet AzrielMarilou ShaganMaxim PortnoiDaniel KafkaHannie NahmaniAngel PorgadorJonathan M GershoniDonald A MorrisonAndrea MitchellMichael TalRonald EllisRon DaganYaffa Mizrachi NebenzahlThe initial event in disease caused by S. pneumoniae is adhesion of the bacterium to respiratory epithelial cells, mediated by surface expressed molecules including cell-wall proteins. NADH oxidase (NOX), which reduces free oxygen to water in the cytoplasm, was identified in a non-lectin enriched pneumococcal cell-wall fraction. Recombinant NOX (rNOX) was screened with sera obtained longitudinally from children and demonstrated age-dependent immunogenicity. NOX ablation in S. pneumoniae significantly reduced bacterial adhesion to A549 epithelial cells in vitro and their virulence in the intranasal or intraperitoneal challenge models in mice, compared to the parental strain. Supplementation of Δnox WU2 with the nox gene restored its virulence. Saturation of A549 target cells with rNOX or neutralization of cell-wall residing NOX using anti-rNOX antiserum decreased adhesion to A549 cells. rNOX-binding phages inhibited bacterial adhesion. Moreover, peptides derived from the human proteins contactin 4, chondroitin 4 sulfotraferase and laminin5, homologous to the insert peptides in the neutralizing phages, inhibited bacterial adhesion to the A549 cells. Furthermore, rNOX immunization of mice elicited a protective immune response to intranasal or intraperitoneal S. pneumoniae challenge, whereas pneumococcal virulence was neutralized by anti-rNOX antiserum prior to intraperitoneal challenge. Our results suggest that in addition to its enzymatic activity, NOX contributes to S. pneumoniae virulence as a putative adhesin and thus peptides derived from its target molecules may be considered for the treatment of pneumococcal infections. Finally, rNOX elicited a protective immune response in both aerobic and anaerobic environments, which renders NOX a candidate for future pneumococcal vaccine.http://europepmc.org/articles/PMC3620118?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Lena Muchnik
Asad Adawi
Ariel Ohayon
Shahar Dotan
Itai Malka
Shalhevet Azriel
Marilou Shagan
Maxim Portnoi
Daniel Kafka
Hannie Nahmani
Angel Porgador
Jonathan M Gershoni
Donald A Morrison
Andrea Mitchell
Michael Tal
Ronald Ellis
Ron Dagan
Yaffa Mizrachi Nebenzahl
spellingShingle Lena Muchnik
Asad Adawi
Ariel Ohayon
Shahar Dotan
Itai Malka
Shalhevet Azriel
Marilou Shagan
Maxim Portnoi
Daniel Kafka
Hannie Nahmani
Angel Porgador
Jonathan M Gershoni
Donald A Morrison
Andrea Mitchell
Michael Tal
Ronald Ellis
Ron Dagan
Yaffa Mizrachi Nebenzahl
NADH oxidase functions as an adhesin in Streptococcus pneumoniae and elicits a protective immune response in mice.
PLoS ONE
author_facet Lena Muchnik
Asad Adawi
Ariel Ohayon
Shahar Dotan
Itai Malka
Shalhevet Azriel
Marilou Shagan
Maxim Portnoi
Daniel Kafka
Hannie Nahmani
Angel Porgador
Jonathan M Gershoni
Donald A Morrison
Andrea Mitchell
Michael Tal
Ronald Ellis
Ron Dagan
Yaffa Mizrachi Nebenzahl
author_sort Lena Muchnik
title NADH oxidase functions as an adhesin in Streptococcus pneumoniae and elicits a protective immune response in mice.
title_short NADH oxidase functions as an adhesin in Streptococcus pneumoniae and elicits a protective immune response in mice.
title_full NADH oxidase functions as an adhesin in Streptococcus pneumoniae and elicits a protective immune response in mice.
title_fullStr NADH oxidase functions as an adhesin in Streptococcus pneumoniae and elicits a protective immune response in mice.
title_full_unstemmed NADH oxidase functions as an adhesin in Streptococcus pneumoniae and elicits a protective immune response in mice.
title_sort nadh oxidase functions as an adhesin in streptococcus pneumoniae and elicits a protective immune response in mice.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2013-01-01
description The initial event in disease caused by S. pneumoniae is adhesion of the bacterium to respiratory epithelial cells, mediated by surface expressed molecules including cell-wall proteins. NADH oxidase (NOX), which reduces free oxygen to water in the cytoplasm, was identified in a non-lectin enriched pneumococcal cell-wall fraction. Recombinant NOX (rNOX) was screened with sera obtained longitudinally from children and demonstrated age-dependent immunogenicity. NOX ablation in S. pneumoniae significantly reduced bacterial adhesion to A549 epithelial cells in vitro and their virulence in the intranasal or intraperitoneal challenge models in mice, compared to the parental strain. Supplementation of Δnox WU2 with the nox gene restored its virulence. Saturation of A549 target cells with rNOX or neutralization of cell-wall residing NOX using anti-rNOX antiserum decreased adhesion to A549 cells. rNOX-binding phages inhibited bacterial adhesion. Moreover, peptides derived from the human proteins contactin 4, chondroitin 4 sulfotraferase and laminin5, homologous to the insert peptides in the neutralizing phages, inhibited bacterial adhesion to the A549 cells. Furthermore, rNOX immunization of mice elicited a protective immune response to intranasal or intraperitoneal S. pneumoniae challenge, whereas pneumococcal virulence was neutralized by anti-rNOX antiserum prior to intraperitoneal challenge. Our results suggest that in addition to its enzymatic activity, NOX contributes to S. pneumoniae virulence as a putative adhesin and thus peptides derived from its target molecules may be considered for the treatment of pneumococcal infections. Finally, rNOX elicited a protective immune response in both aerobic and anaerobic environments, which renders NOX a candidate for future pneumococcal vaccine.
url http://europepmc.org/articles/PMC3620118?pdf=render
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