A Point Mutation in the Transcriptional Repressor PerR Results in a Constitutive Oxidative Stress Response in Clostridioides difficile 630Δerm

The human pathogen Clostridioides difficile has evolved into the leading cause of nosocomial diarrhea. The bacterium is capable of spore formation, which even allows survival of antibiotic treatment. Although C. difficile features an anaerobic lifestyle, we determined a remarkably high oxygen tolera...

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Autores principales: Troitzsch, Daniel, Zhang, Hao, Dittmann, Silvia, Düsterhöft, Dorothee, Möller, Timon Alexander, Michel, Annika-Marisa, Jänsch, Lothar, Riedel, Katharina, Borrero-de Acuña, José Manuel, Jahn, Dieter, Sievers, Susanne
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Microbiology 2021
Materias:
Observation
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8546684/
https://www.ncbi.nlm.nih.gov/pubmed/33658275
http://dx.doi.org/10.1128/mSphere.00091-21
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author Troitzsch, Daniel
Zhang, Hao
Dittmann, Silvia
Düsterhöft, Dorothee
Möller, Timon Alexander
Michel, Annika-Marisa
Jänsch, Lothar
Riedel, Katharina
Borrero-de Acuña, José Manuel
Jahn, Dieter
Sievers, Susanne
author_facet Troitzsch, Daniel
Zhang, Hao
Dittmann, Silvia
Düsterhöft, Dorothee
Möller, Timon Alexander
Michel, Annika-Marisa
Jänsch, Lothar
Riedel, Katharina
Borrero-de Acuña, José Manuel
Jahn, Dieter
Sievers, Susanne
author_sort Troitzsch, Daniel
collection PubMed
description The human pathogen Clostridioides difficile has evolved into the leading cause of nosocomial diarrhea. The bacterium is capable of spore formation, which even allows survival of antibiotic treatment. Although C. difficile features an anaerobic lifestyle, we determined a remarkably high oxygen tolerance of the laboratory reference strain 630Δerm. A mutation of a single nucleotide (single nucleotide polymorphism [SNP]) in the DNA sequence (A to G) of the gene encoding the regulatory protein PerR results in an amino acid substitution (Thr to Ala) in one of the helices of the helix-turn-helix DNA binding domain of this transcriptional repressor in C. difficile 630Δerm. PerR is a sensor protein for hydrogen peroxide and controls the expression of genes involved in the oxidative stress response. We show that PerR of C. difficile 630Δerm has lost its ability to bind the promoter region of PerR-controlled genes. This results in a constitutive derepression of genes encoding oxidative stress proteins such as a rubrerythrin (rbr1) whose mRNA abundance under anaerobic conditions was increased by a factor of about 7 compared to its parental strain C. difficile 630. Rubrerythrin repression in strain 630Δerm could be restored by the introduction of PerR from strain 630. The permanent oxidative stress response of C. difficile 630Δerm observed here should be considered in physiological and pathophysiological investigations based on this widely used model strain. IMPORTANCE The intestinal pathogen Clostridioides difficile is one of the major challenges in medical facilities nowadays. In order to better combat the bacterium, detailed knowledge of its physiology is mandatory. C. difficile strain 630Δerm was generated in a laboratory from the patient-isolated strain C. difficile 630 and represents a reference strain for many researchers in the field, serving as the basis for the construction of insertional gene knockout mutants. In our work, we demonstrate that this strain is characterized by an uncontrolled oxidative stress response as a result of a single-base-pair substitution in the sequence of a transcriptional regulator. C. difficile researchers working with model strain 630Δerm should be aware of this permanent stress response.
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spelling pubmed-85466842021-11-04 A Point Mutation in the Transcriptional Repressor PerR Results in a Constitutive Oxidative Stress Response in Clostridioides difficile 630Δerm Troitzsch, Daniel Zhang, Hao Dittmann, Silvia Düsterhöft, Dorothee Möller, Timon Alexander Michel, Annika-Marisa Jänsch, Lothar Riedel, Katharina Borrero-de Acuña, José Manuel Jahn, Dieter Sievers, Susanne mSphere Observation The human pathogen Clostridioides difficile has evolved into the leading cause of nosocomial diarrhea. The bacterium is capable of spore formation, which even allows survival of antibiotic treatment. Although C. difficile features an anaerobic lifestyle, we determined a remarkably high oxygen tolerance of the laboratory reference strain 630Δerm. A mutation of a single nucleotide (single nucleotide polymorphism [SNP]) in the DNA sequence (A to G) of the gene encoding the regulatory protein PerR results in an amino acid substitution (Thr to Ala) in one of the helices of the helix-turn-helix DNA binding domain of this transcriptional repressor in C. difficile 630Δerm. PerR is a sensor protein for hydrogen peroxide and controls the expression of genes involved in the oxidative stress response. We show that PerR of C. difficile 630Δerm has lost its ability to bind the promoter region of PerR-controlled genes. This results in a constitutive derepression of genes encoding oxidative stress proteins such as a rubrerythrin (rbr1) whose mRNA abundance under anaerobic conditions was increased by a factor of about 7 compared to its parental strain C. difficile 630. Rubrerythrin repression in strain 630Δerm could be restored by the introduction of PerR from strain 630. The permanent oxidative stress response of C. difficile 630Δerm observed here should be considered in physiological and pathophysiological investigations based on this widely used model strain. IMPORTANCE The intestinal pathogen Clostridioides difficile is one of the major challenges in medical facilities nowadays. In order to better combat the bacterium, detailed knowledge of its physiology is mandatory. C. difficile strain 630Δerm was generated in a laboratory from the patient-isolated strain C. difficile 630 and represents a reference strain for many researchers in the field, serving as the basis for the construction of insertional gene knockout mutants. In our work, we demonstrate that this strain is characterized by an uncontrolled oxidative stress response as a result of a single-base-pair substitution in the sequence of a transcriptional regulator. C. difficile researchers working with model strain 630Δerm should be aware of this permanent stress response. American Society for Microbiology 2021-03-03 /pmc/articles/PMC8546684/ /pubmed/33658275 http://dx.doi.org/10.1128/mSphere.00091-21 Text en Copyright © 2021 Troitzsch et al. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution 4.0 International license (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Observation
Troitzsch, Daniel
Zhang, Hao
Dittmann, Silvia
Düsterhöft, Dorothee
Möller, Timon Alexander
Michel, Annika-Marisa
Jänsch, Lothar
Riedel, Katharina
Borrero-de Acuña, José Manuel
Jahn, Dieter
Sievers, Susanne
A Point Mutation in the Transcriptional Repressor PerR Results in a Constitutive Oxidative Stress Response in Clostridioides difficile 630Δerm
title A Point Mutation in the Transcriptional Repressor PerR Results in a Constitutive Oxidative Stress Response in Clostridioides difficile 630Δerm
title_full A Point Mutation in the Transcriptional Repressor PerR Results in a Constitutive Oxidative Stress Response in Clostridioides difficile 630Δerm
title_fullStr A Point Mutation in the Transcriptional Repressor PerR Results in a Constitutive Oxidative Stress Response in Clostridioides difficile 630Δerm
title_full_unstemmed A Point Mutation in the Transcriptional Repressor PerR Results in a Constitutive Oxidative Stress Response in Clostridioides difficile 630Δerm
title_short A Point Mutation in the Transcriptional Repressor PerR Results in a Constitutive Oxidative Stress Response in Clostridioides difficile 630Δerm
title_sort point mutation in the transcriptional repressor perr results in a constitutive oxidative stress response in clostridioides difficile 630δerm
topic Observation
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8546684/
https://www.ncbi.nlm.nih.gov/pubmed/33658275
http://dx.doi.org/10.1128/mSphere.00091-21
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