The transcriptional response of pathogenic Leptospira to peroxide reveals new defenses against infection-related oxidative stress.

The transcriptional response of pathogenic Leptospira to peroxide reveals new defenses against infection-related oxidative stress.

Pathogenic Leptospira spp. are the causative agents of the waterborne zoonotic disease leptospirosis. Leptospira are challenged by numerous adverse conditions, including deadly reactive oxygen species (ROS), when infecting their hosts. Withstanding ROS produced by the host innate immunity is an impo...

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Main Authors: Crispin Zavala-Alvarado, Odile Sismeiro, Rachel Legendre, Hugo Varet, Giovanni Bussotti, Jan Bayram, Samuel G Huete, Guillaume Rey, Jean-Yves Coppée, Mathieu Picardeau, Nadia Benaroudj
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2020-10-01
Series:PLoS Pathogens
Online Access:https://doi.org/10.1371/journal.ppat.1008904
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spelling doaj-0879ef5aa50747b78623308bab87061d2021-04-21T17:52:41ZengPublic Library of Science (PLoS)PLoS Pathogens1553-73661553-73742020-10-011610e100890410.1371/journal.ppat.1008904The transcriptional response of pathogenic Leptospira to peroxide reveals new defenses against infection-related oxidative stress.Crispin Zavala-AlvaradoOdile SismeiroRachel LegendreHugo VaretGiovanni BussottiJan BayramSamuel G HueteGuillaume ReyJean-Yves CoppéeMathieu PicardeauNadia BenaroudjPathogenic Leptospira spp. are the causative agents of the waterborne zoonotic disease leptospirosis. Leptospira are challenged by numerous adverse conditions, including deadly reactive oxygen species (ROS), when infecting their hosts. Withstanding ROS produced by the host innate immunity is an important strategy evolved by pathogenic Leptospira for persisting in and colonizing hosts. In L. interrogans, genes encoding defenses against ROS are repressed by the peroxide stress regulator, PerR. In this study, RNA sequencing was performed to characterize both the L. interrogans response to low and high concentrations of hydrogen peroxide and the PerR regulon. We showed that Leptospira solicit three main peroxidase machineries (catalase, cytochrome C peroxidase and peroxiredoxin) and heme to detoxify oxidants produced during peroxide stress. In addition, canonical molecular chaperones of the heat shock response and DNA repair proteins from the SOS response were required for Leptospira recovering from oxidative damage. Identification of the PerR regulon upon exposure to H2O2 allowed to define the contribution of this regulator in the oxidative stress response. This study has revealed a PerR-independent regulatory network involving other transcriptional regulators, two-component systems and sigma factors as well as non-coding RNAs that putatively orchestrate, in concert with PerR, the oxidative stress response. We have shown that PerR-regulated genes encoding a TonB-dependent transporter and a two-component system (VicKR) are involved in Leptospira tolerance to superoxide. This could represent the first defense mechanism against superoxide in L. interrogans, a bacterium lacking canonical superoxide dismutase. Our findings provide an insight into the mechanisms required by pathogenic Leptospira to overcome oxidative damage during infection-related conditions. This will participate in framing future hypothesis-driven studies to identify and decipher novel virulence mechanisms in this life-threatening pathogen.https://doi.org/10.1371/journal.ppat.1008904
collection DOAJ
language English
format Article
sources DOAJ
author Crispin Zavala-Alvarado
Odile Sismeiro
Rachel Legendre
Hugo Varet
Giovanni Bussotti
Jan Bayram
Samuel G Huete
Guillaume Rey
Jean-Yves Coppée
Mathieu Picardeau
Nadia Benaroudj
spellingShingle Crispin Zavala-Alvarado
Odile Sismeiro
Rachel Legendre
Hugo Varet
Giovanni Bussotti
Jan Bayram
Samuel G Huete
Guillaume Rey
Jean-Yves Coppée
Mathieu Picardeau
Nadia Benaroudj
The transcriptional response of pathogenic Leptospira to peroxide reveals new defenses against infection-related oxidative stress.
PLoS Pathogens
author_facet Crispin Zavala-Alvarado
Odile Sismeiro
Rachel Legendre
Hugo Varet
Giovanni Bussotti
Jan Bayram
Samuel G Huete
Guillaume Rey
Jean-Yves Coppée
Mathieu Picardeau
Nadia Benaroudj
author_sort Crispin Zavala-Alvarado
title The transcriptional response of pathogenic Leptospira to peroxide reveals new defenses against infection-related oxidative stress.
title_short The transcriptional response of pathogenic Leptospira to peroxide reveals new defenses against infection-related oxidative stress.
title_full The transcriptional response of pathogenic Leptospira to peroxide reveals new defenses against infection-related oxidative stress.
title_fullStr The transcriptional response of pathogenic Leptospira to peroxide reveals new defenses against infection-related oxidative stress.
title_full_unstemmed The transcriptional response of pathogenic Leptospira to peroxide reveals new defenses against infection-related oxidative stress.
title_sort transcriptional response of pathogenic leptospira to peroxide reveals new defenses against infection-related oxidative stress.
publisher Public Library of Science (PLoS)
series PLoS Pathogens
issn 1553-7366
1553-7374
publishDate 2020-10-01
description Pathogenic Leptospira spp. are the causative agents of the waterborne zoonotic disease leptospirosis. Leptospira are challenged by numerous adverse conditions, including deadly reactive oxygen species (ROS), when infecting their hosts. Withstanding ROS produced by the host innate immunity is an important strategy evolved by pathogenic Leptospira for persisting in and colonizing hosts. In L. interrogans, genes encoding defenses against ROS are repressed by the peroxide stress regulator, PerR. In this study, RNA sequencing was performed to characterize both the L. interrogans response to low and high concentrations of hydrogen peroxide and the PerR regulon. We showed that Leptospira solicit three main peroxidase machineries (catalase, cytochrome C peroxidase and peroxiredoxin) and heme to detoxify oxidants produced during peroxide stress. In addition, canonical molecular chaperones of the heat shock response and DNA repair proteins from the SOS response were required for Leptospira recovering from oxidative damage. Identification of the PerR regulon upon exposure to H2O2 allowed to define the contribution of this regulator in the oxidative stress response. This study has revealed a PerR-independent regulatory network involving other transcriptional regulators, two-component systems and sigma factors as well as non-coding RNAs that putatively orchestrate, in concert with PerR, the oxidative stress response. We have shown that PerR-regulated genes encoding a TonB-dependent transporter and a two-component system (VicKR) are involved in Leptospira tolerance to superoxide. This could represent the first defense mechanism against superoxide in L. interrogans, a bacterium lacking canonical superoxide dismutase. Our findings provide an insight into the mechanisms required by pathogenic Leptospira to overcome oxidative damage during infection-related conditions. This will participate in framing future hypothesis-driven studies to identify and decipher novel virulence mechanisms in this life-threatening pathogen.
url https://doi.org/10.1371/journal.ppat.1008904
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