A novel phase variation mechanism in the meningococcus driven by a ligand-responsive repressor and differential spacing of distal promoter elements.

A novel phase variation mechanism in the meningococcus driven by a ligand-responsive repressor and differential spacing of distal promoter elements.

Phase variable expression, mediated by high frequency reversible changes in the length of simple sequence repeats, facilitates adaptation of bacterial populations to changing environments and is frequently important in bacterial virulence. Here we elucidate a novel phase variable mechanism for NadA,...

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Main Authors: Matteo M E Metruccio, Eva Pigozzi, Davide Roncarati, Francesco Berlanda Scorza, Nathalie Norais, Stuart A Hill, Vincenzo Scarlato, Isabel Delany
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2009-12-01
Series:PLoS Pathogens
Online Access:http://europepmc.org/articles/PMC2791445?pdf=render
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spelling doaj-8059ca8a92594f54b96fa8c2eaa2a66f2020-11-25T01:18:26ZengPublic Library of Science (PLoS)PLoS Pathogens1553-73661553-73742009-12-01512e100071010.1371/journal.ppat.1000710A novel phase variation mechanism in the meningococcus driven by a ligand-responsive repressor and differential spacing of distal promoter elements.Matteo M E MetruccioEva PigozziDavide RoncaratiFrancesco Berlanda ScorzaNathalie NoraisStuart A HillVincenzo ScarlatoIsabel DelanyPhase variable expression, mediated by high frequency reversible changes in the length of simple sequence repeats, facilitates adaptation of bacterial populations to changing environments and is frequently important in bacterial virulence. Here we elucidate a novel phase variable mechanism for NadA, an adhesin and invasin of Neisseria meningitidis. The NadR repressor protein binds to operators flanking the phase variable tract and contributes to the differential expression levels of phase variant promoters with different numbers of repeats likely due to different spacing between operators. We show that IHF binds between these operators, and may permit looping of the promoter, allowing interaction of NadR at operators located distally or overlapping the promoter. The 4-hydroxyphenylacetic acid, a metabolite of aromatic amino acid catabolism that is secreted in saliva, induces NadA expression by inhibiting the DNA binding activity of the repressor. When induced, only minor differences are evident between NadR-independent transcription levels of promoter phase variants and are likely due to differential RNA polymerase contacts leading to altered promoter activity. Our results suggest that NadA expression is under both stochastic and tight environmental-sensing regulatory control, both mediated by the NadR repressor, and may be induced during colonization of the oropharynx where it plays a major role in the successful adhesion and invasion of the mucosa. Hence, simple sequence repeats in promoter regions may be a strategy used by host-adapted bacterial pathogens to randomly switch between expression states that may nonetheless still be induced by appropriate niche-specific signals.http://europepmc.org/articles/PMC2791445?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Matteo M E Metruccio
Eva Pigozzi
Davide Roncarati
Francesco Berlanda Scorza
Nathalie Norais
Stuart A Hill
Vincenzo Scarlato
Isabel Delany
spellingShingle Matteo M E Metruccio
Eva Pigozzi
Davide Roncarati
Francesco Berlanda Scorza
Nathalie Norais
Stuart A Hill
Vincenzo Scarlato
Isabel Delany
A novel phase variation mechanism in the meningococcus driven by a ligand-responsive repressor and differential spacing of distal promoter elements.
PLoS Pathogens
author_facet Matteo M E Metruccio
Eva Pigozzi
Davide Roncarati
Francesco Berlanda Scorza
Nathalie Norais
Stuart A Hill
Vincenzo Scarlato
Isabel Delany
author_sort Matteo M E Metruccio
title A novel phase variation mechanism in the meningococcus driven by a ligand-responsive repressor and differential spacing of distal promoter elements.
title_short A novel phase variation mechanism in the meningococcus driven by a ligand-responsive repressor and differential spacing of distal promoter elements.
title_full A novel phase variation mechanism in the meningococcus driven by a ligand-responsive repressor and differential spacing of distal promoter elements.
title_fullStr A novel phase variation mechanism in the meningococcus driven by a ligand-responsive repressor and differential spacing of distal promoter elements.
title_full_unstemmed A novel phase variation mechanism in the meningococcus driven by a ligand-responsive repressor and differential spacing of distal promoter elements.
title_sort novel phase variation mechanism in the meningococcus driven by a ligand-responsive repressor and differential spacing of distal promoter elements.
publisher Public Library of Science (PLoS)
series PLoS Pathogens
issn 1553-7366
1553-7374
publishDate 2009-12-01
description Phase variable expression, mediated by high frequency reversible changes in the length of simple sequence repeats, facilitates adaptation of bacterial populations to changing environments and is frequently important in bacterial virulence. Here we elucidate a novel phase variable mechanism for NadA, an adhesin and invasin of Neisseria meningitidis. The NadR repressor protein binds to operators flanking the phase variable tract and contributes to the differential expression levels of phase variant promoters with different numbers of repeats likely due to different spacing between operators. We show that IHF binds between these operators, and may permit looping of the promoter, allowing interaction of NadR at operators located distally or overlapping the promoter. The 4-hydroxyphenylacetic acid, a metabolite of aromatic amino acid catabolism that is secreted in saliva, induces NadA expression by inhibiting the DNA binding activity of the repressor. When induced, only minor differences are evident between NadR-independent transcription levels of promoter phase variants and are likely due to differential RNA polymerase contacts leading to altered promoter activity. Our results suggest that NadA expression is under both stochastic and tight environmental-sensing regulatory control, both mediated by the NadR repressor, and may be induced during colonization of the oropharynx where it plays a major role in the successful adhesion and invasion of the mucosa. Hence, simple sequence repeats in promoter regions may be a strategy used by host-adapted bacterial pathogens to randomly switch between expression states that may nonetheless still be induced by appropriate niche-specific signals.
url http://europepmc.org/articles/PMC2791445?pdf=render
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