Your search keyword '"Meza-Torres, Jazmín"' showing total 15 results

1. A sensor histidine kinase from a plant-endosymbiont bacterium restores the virulence of a mammalian intracellular pathogen

Author

Chaves-Olarte, Esteban, Meza-Torres, Jazmín, Herrera-Rodríguez, Fabiola, Lizano-González, Esteban, Suárez-Esquivel, Marcela, Baker, Kate S., Rivas-Solano, Olga, Ruiz-Villalobos, Nazareth, Villalta-Romero, Fabián, Cheng, Hai-Ping, Walker, Graham C., Cloeckaert, Axel, Thomson, Nicholas R., Frisan, Teresa, Moreno, Edgardo, and Guzmán-Verri, Caterina

Published

2023

2. Listeriolysin S : A bacteriocin from Listeria monocytogenes that induces membrane permeabilization in a contact-dependent manner

Author

Meza-Torres, Jazmín, Lelek, Mickaël, Quereda, Juan J., Sachse, Martin, Manina, Giulia, Ershov, Dmitry, Tinevez, Jean-Yves, Radoshevich, Lilliana, Maudet, Claire, Chaze, Thibault, Gianetto, Quentin Giai, Matondo, Mariette, Lecuit, Marc, Martin-Verstraete, Isabelle, Zimmer, Christophe, Bierne, Hélène, Dussurget, Olivier, Cossart, Pascale, and Pizarro-Cerdá, Javier

Published

2021

3. Phenotypes controlled by the Brucella abortus two component system BvrR/BvrS are differentially impacted by BvrR phosphorylation

Author

Altamirano-Silva, Pamela, primary, Meza-Torres, Jazmín, additional, Zúñiga-Pereira, Ana Mariel, additional, Zamora-Jaen, Sigrid, additional, Pietrosemoli, Natalia, additional, Cantos, Gabriela, additional, Peltier, Johann, additional, Pizarro-Cerdá, Javier, additional, Moreno, Edgardo, additional, Chacón-Díaz, Carlos, additional, Guzmán-Verri, Caterina, additional, and Chaves-Olarte, Esteban, additional

Published

2023

4. Listeriolysin S : a bacteriocin from 'Listeria monocytogenes' that induces membrane permeabilization in a contact-dependent manner

Author

Meza Torres, Jazmín., Lelek, Mickaël., Quereda Torres, Juan José., Sachse, Martin., Manina, Giulia., Ershov, Dmitry., UCH. Departamento de Producción y Sanidad Animal, Salud Pública Veterinaria y Ciencia y Tecnología de los Alimentos, and Producción Científica UCH 2021

Subjects

Listeriosis, Intoxicación por alimentos, Bacteriocinas, Veterinary microbiology, Listeriolysin S (LLS), Microbiología veterinaria, Listeria monocytogenes, Bacteriocins, Food poisoning

Abstract

Este artículo se encuentra disponible en la siguiente URL: https://www.pnas.org/doi/epdf/10.1073/pnas.2108155118 En este artículo de investigación también participan: Jean-Yves Tinevez, Lilliana Radoshevich, Claire Maudet, Thibault Chaze, Quentin Giai Gianetto, Mariette Matondo, Marc Lecuit, Isabelle Martin-Verstraete, Christophe Zimmer, Hélène Bierne, Olivier Dussurget, Pascale Cossart y Javier Pizarro-Cerdá. Listeriolysin S (LLS) is a thiazole/oxazole–modified microcin (TOMM) produced by hypervirulent clones of Listeria monocytogenes. LLS targets specific gram-positive bacteria and modulates the host intestinal microbiota composition. To characterize the mechanism of LLS transfer to target bacteria and its bactericidal function, we first investigated its subcellular distribution in LLS-producer bacteria. Using subcellular fractionation assays, transmission electron microscopy, and single-molecule superresolution microscopy,we identified that LLS remains associated with the bacterial cell membrane and cytoplasm and is not secreted to the bacterial extracellular space. Only living LLS-producer bacteria (and not purified LLS-positive bacterial membranes) display bactericidal activity. Applying transwell coculture systems and microfluidic-coupled microscopy, we determined that LLS requires direct contact between LLS-producer and -target bacteria in order to display bactericidal activity, and thus behaves as a contact-dependent bacteriocin. Contact-dependent exposure to LLS leads to permeabilization/depolarization of the target bacterial cell membrane and adenosine triphosphate (ATP) release. Additionally, we show that lipoteichoic acids (LTAs) can interact with LLS and that LTA decorations influence bacterial susceptibility to LLS. Overall, our results suggest that LLS is a TOMM that displays a contact-dependent inhibition mechanism.

Published

2021

5. Virulence potential of Listeria monocytogenes strains recovered from pigs in Spain

Author

Gómez-Laguna, Jaime, primary, Cardoso-Toset, Fernando, additional, Meza-Torres, Jazmín, additional, Pizarro-Cerdá, Javier, additional, and Quereda, Juan J, additional

Published

2020

6. Senses the Intracellular Environment through the BvrR/BvrS Two-Component System, Which Allows To Adapt to Its Replicative Niche

Author

Altamirano Silva, Pamela, Meza Torres, Jazmín Andrea, Castillo Zeledón, Amanda, Ruíz Villalobos, Nazareth, Zúñiga Pereira, Ana Mariel, Chacón Díaz, Carlos, Moreno Robles, Edgardo, Guzmán Verri, Caterina, and Chaves Olarte, Esteban

Subjects

Two component system, Type IV secretion system, Proteobacteria, Brucellosis

Abstract

Brucella abortus is a facultative extracellular-intracellular pathogen belonging to a group of Alphaproteobacteria that establishes close interactions with animal cells. This bacterium enters host cells in a membrane-bound compartment, avoiding the lysosomal route and reaching the endoplasmic reticulum through the action of the type IV secretion system, VirB. In this work, we demonstrate that the BvrR/BvrS two-component system senses the intracellular environment to mount the transcriptional response required for intracellular life adaptation. By combining a method to purify intracellularly extracted bacteria with a strategy that allows direct determination of BvrR phosphorylation, we showed that upon entrance to host cells, the regulatory protein BvrR was activated (BvrR-P) by phosphorylation at aspartate 58. This activation takes place in response to intracellular cues found in early compartments, such as low pH and nutrient deprivation. Furthermore, BvrR activation was followed by an increase in the expression of VjbR and VirB. The in vitro activation of this BvrR-P/VjbR/VirB virulence circuit rescued B. abortus from the inhibition of intracellular replication induced by bafilomycin treatment of cells, demonstrating the relevance of this mechanism for intracellular bacterial survival and replication. All together, our results indicate that B. abortus senses the transition from the extracellular to the intracellular milieu through BvrR/BvrS, allowing the bacterium to transit safely to its replicative niche. These results serve as a working model for understanding the role of this family of two-component systems in the adaptation to intracellular life of Alphaproteobacteria. Universidad de Costa Rica/[803-B3-761]/UCR/Costa Rica UCR::Vicerrectoría de Investigación::Unidades de Investigación::Ciencias de la Salud::Centro de Investigación en Enfermedades Tropicales (CIET)

Published

2018

7. Listeriolysin S Is a Streptolysin S-Like Virulence Factor That Targets Exclusively Prokaryotic Cells In Vivo

Author

Quereda, Juan J, Nahori, Marie A, Meza-Torres, Jazmín, Sachse, Martin, Titos-Jiménez, Patricia, Gomez-Laguna, Jaime, Dussurget, Olivier, Cossart, Pascale, Pizarro-Cerdá, Javier, Interactions Bactéries-Cellules (UIBC), Institut National de la Recherche Agronomique (INRA)-Institut Pasteur [Paris]-Institut National de la Santé et de la Recherche Médicale (INSERM), Plateforme BioImagerie Ultrastructurale – Ultrastructural BioImaging Platform (UTechS UBI), Institut Pasteur [Paris], Anatomy and Comparative Pathology Department, International Excellence Agrifood Campus CeiA3, Universidad de Córdoba [Cordoba], Cellule Pasteur, Université Paris Diderot - Paris 7 (UPD7)-PRES Sorbonne Paris Cité, This work was supported by the Institut Pasteur, the Institut National de la Santé et de la Recherche Médicale (INSERM Unité 604), the Institut National de la Recherche Agronomique (INRA Unité Sous Contrat 2020), Université Paris Diderot, grants from Région Île-de-France, the Institut Pasteur 'Programmes Transversaux de Recherche' (PTR521 to J.P.C.), Agence Nationale de la Recherché (ANR-15-CE15-0017 StopBugEntry to J.P.C.), Fondation Le Roch Les Mousquetaires, European Research Council Advanced grant (670823 BacCellEpi to P.C.), and Région Île-de-France (DIM-MALINF to J.M.T.), ANR-15-CE15-0017,StopBugEntry,Identification des nouvelles molécules cellulaires cibles pour combattre les infections bactériennes(2015), European Project: 670823,H2020,ERC-2014-ADG,BacCellEpi(2015), Institut National de la Recherche Agronomique (INRA)-Institut Pasteur [Paris] (IP)-Institut National de la Santé et de la Recherche Médicale (INSERM), Institut Pasteur [Paris] (IP), Universidad de Córdoba = University of Córdoba [Córdoba], vicente, marie-therese, Identification des nouvelles molécules cellulaires cibles pour combattre les infections bactériennes - - StopBugEntry2015 - ANR-15-CE15-0017 - AAPG2015 - VALID, Bacterial, cellular and epigenetic factors that control enteropathogenicity - BacCellEpi - - H20202015-10-01 - 2018-09-30 - 670823 - VALID, Institut National de la Santé et de la Recherche Médicale (INSERM)-Institut Pasteur [Paris]-Institut National de la Recherche Agronomique (INRA), Technologie et Service BioImagerie Ultrastructurale – Ultrastructural BioImaging (UTechS UBI), Centre de Ressources et de Recherche Technologique - Center for Technological Resources and Research (C2RT), Institut Pasteur [Paris]-Institut Pasteur [Paris], PRES Sorbonne Paris Cité-Université Paris Diderot - Paris 7 (UPD7), and ANR-15-CE15-0017,StopBugEntry,Novel common host targets during bacterial invasion of humans(2015)

Subjects

streptolysin S, Microbial Viability, Virulence Factors, Listeria, cytotoxin, [SDV]Life Sciences [q-bio], Listeria monocytogenes, Microbiology, epidemics, infection, QR1-502, [SDV] Life Sciences [q-bio], Disease Models, Animal, Hemolysin Proteins, Mice, Prokaryotic Cells, listeriolysin S, Host-Pathogen Interactions, Animals, Humans, Listeriosis, Cells, Cultured, Research Article

Abstract

Streptolysin S (SLS)-like virulence factors from clinically relevant Gram-positive pathogens have been proposed to behave as potent cytotoxins, playing key roles in tissue infection. Listeriolysin S (LLS) is an SLS-like hemolysin/bacteriocin present among Listeria monocytogenes strains responsible for human listeriosis outbreaks. As LLS cytotoxic activity has been associated with virulence, we investigated the LLS-specific contribution to host tissue infection. Surprisingly, we first show that LLS causes only weak red blood cell (RBC) hemolysis in vitro and neither confers resistance to phagocytic killing nor favors survival of L. monocytogenes within the blood cells or in the extracellular space (in the plasma). We reveal that LLS does not elicit specific immune responses, is not cytotoxic for eukaryotic cells, and does not impact cell infection by L. monocytogenes. Using in vitro cell infection systems and a murine intravenous infection model, we actually demonstrate that LLS expression is undetectable during infection of cells and murine inner organs. Importantly, upon intravenous animal inoculation, L. monocytogenes is found in the gastrointestinal system, and only in this environment LLS expression is detected in vivo. Finally, we confirm that LLS production is associated with destruction of target bacteria. Our results demonstrate therefore that LLS does not contribute to L. monocytogenes tissue injury and virulence in inner host organs as previously reported. Moreover, we describe that LlsB, a putative posttranslational modification enzyme encoded in the LLS operon, is necessary for murine inner organ colonization. Overall, we demonstrate that LLS is the first SLS-like virulence factor targeting exclusively prokaryotic cells during in vivo infections., IMPORTANCE The most severe human listeriosis outbreaks are caused by L. monocytogenes strains harboring listeriolysin S (LLS), previously described as a cytotoxin that plays a critical role in host inner tissue infection. Cytotoxic activities have been proposed as a general mode of action for streptolysin S (SLS)-like toxins, including clostridiolysin S and LLS. We now challenge this dogma by demonstrating that LLS does not contribute to virulence in vivo once the intestinal barrier has been crossed. Importantly, we show that intravenous L. monocytogenes inoculation leads to bacterial translocation to the gastrointestinal system, where LLS is specifically expressed, targeting the host gut microbiota. Our study highlights the heterogeneous modes of action of SLS-like toxins, and we demonstrate for the first time a further level of complexity for SLS-like biosynthetic clusters as we reveal that the putative posttranslational modification enzyme LlsB is actually required for inner organ colonization, independently of the LLS activity.

Published

2017

8. Listeriolysin S: A bacteriocin from epidemic Listeria monocytogenes strains that targets the gut microbiota

Author

Quereda, Juan J., Meza-Torres, Jazmín, Cossart, Pascale, and Pizarro-Cerdá, Javier

Subjects

Microbiology and Parasitology, bacteriocin, intestinal barrier, Listeria monocytogenes, Listeriolysin S, LLS, microbiota, Microbiologie et Parasitologie

Abstract

Listeria monocytogenes is a Gram-positive food-borne pathogen that in humans may traverse the intestinal, placental and blood/brain barriers, causing gastroenteritis, abortions and meningitis. Crossing of these barriers is dependent on the bacterial ability to enter host cells, and several L. monocytogenes surface and secreted virulence factors are known to facilitate entry and the intracellular lifecycle. The study of L. monocytogenes strains associated to human listeriosis epidemics has revealed the presence of novel virulence factors. One such factor is Listeriolysin S, a thiazole/oxazole modified microcin that displays bactericidal activity and modifies the host microbiota during infection. Our recent results therefore highlight the interaction of L. monocytogenes with gut microbes as a crucial step in epidemic listeriosis. In this article, we will discuss novel implications for this family of toxins in the pathogenesis of diverse medically relevant microorganisms.

Published

2017

9. Brucella abortus Senses the Intracellular Environment through the BvrR/BvrS Two-Component System, Which Allows B. abortus To Adapt to Its Replicative Niche

Author

Altamirano-Silva, Pamela, primary, Meza-Torres, Jazmín, additional, Castillo-Zeledón, Amanda, additional, Ruiz-Villalobos, Nazareth, additional, Zuñiga-Pereira, Ana Mariel, additional, Chacón-Díaz, Carlos, additional, Moreno, Edgardo, additional, Guzmán-Verri, Caterina, additional, and Chaves-Olarte, Esteban, additional

Published

2018

10. Listeriolysin S: A bacteriocin from epidemicListeria monocytogenesstrains that targets the gut microbiota

Author

Quereda, Juan J., primary, Meza-Torres, Jazmín, additional, Cossart, Pascale, additional, and Pizarro-Cerdá, Javier, additional

Published

2017

11. Listeriolysin S: A bacteriocin from epidemic Listeria monocytogenesstrains that targets the gut microbiota

Author

Quereda, Juan J., Meza-Torres, Jazmín, Cossart, Pascale, and Pizarro-Cerdá, Javier

Abstract

ABSTRACTListeria monocytogenesis a Gram-positive food-borne pathogen that in humans may traverse the intestinal, placental and blood/brain barriers, causing gastroenteritis, abortions and meningitis. Crossing of these barriers is dependent on the bacterial ability to enter host cells, and several L. monocytogenessurface and secreted virulence factors are known to facilitate entry and the intracellular lifecycle. The study of L. monocytogenesstrains associated to human listeriosis epidemics has revealed the presence of novel virulence factors. One such factor is Listeriolysin S, a thiazole/oxazole modified microcin that displays bactericidal activity and modifies the host microbiota during infection. Our recent results therefore highlight the interaction of L. monocytogeneswith gut microbes as a crucial step in epidemic listeriosis. In this article, we will discuss novel implications for this family of toxins in the pathogenesis of diverse medically relevant microorganisms.

Published

2017

12. Listeriolysin S: A bacteriocin from epidemic Listeria monocytogenes strains that targets the gut microbiota

Author

Quereda, Juan J, Meza-Torres, Jazmín, Cossart, Pascale, Pizarro-Cerdá, Javier, Interactions Bactéries-Cellules (UIBC), Institut National de la Recherche Agronomique (INRA)-Institut Pasteur [Paris] (IP)-Institut National de la Santé et de la Recherche Médicale (INSERM), This work was supported by the Institut Pasteur, the Institut National de la Sante et de la Recherche Medicale (INSERM Unite 604), the Institut National de la Recherche Agronomique (INRA Unit Sous Contrat 2020), the Institut Pasteur Programmes Transversaux de Recherche ’(PTR521 to JPC), L’Agence Nationale de la Recherche (ANR-15-CE15–0017 StopBugEntry to JPC), Fondation Le Roch Les Mousquetaires, European Research Council Advanced Grant (670823 BacCel-lEpi to PC) and Region Ile-de-France (DIM-MALINF to JMT). PC is an International Senior Research Scholar of the Howard Hughes Medical Institute., We are thankful to members of the Unité des Interactions Bactéries-Cellules and of the C3BI (Pasteur Institute) for helpful discussions. We thank Servier Medical Art (http://www.servier.com/Powerpoint-image-bank) for providing drawings used in Figures 1 and 2., ANR-15-CE15-0017,StopBugEntry,Identification des nouvelles molécules cellulaires cibles pour combattre les infections bactériennes(2015), European Project: 670823,H2020,ERC-2014-ADG,BacCellEpi(2015), Institut National de la Recherche Agronomique (INRA)-Institut Pasteur [Paris]-Institut National de la Santé et de la Recherche Médicale (INSERM), Institut National de la Santé et de la Recherche Médicale (INSERM)-Institut Pasteur [Paris]-Institut National de la Recherche Agronomique (INRA), ANR-15-CE15-0017,StopBugEntry,Novel common host targets during bacterial invasion of humans(2015), vicente, marie-therese, Identification des nouvelles molécules cellulaires cibles pour combattre les infections bactériennes - - StopBugEntry2015 - ANR-15-CE15-0017 - AAPG2015 - VALID, and Bacterial, cellular and epigenetic factors that control enteropathogenicity - BacCellEpi - - H20202015-10-01 - 2018-09-30 - 670823 - VALID

Subjects

Bacteria, [SDV]Life Sciences [q-bio], Listeria monocytogenes, Listeriolysin S, LLS, Gastrointestinal Microbiome, Addendum, [SDV] Life Sciences [q-bio], Hemolysin Proteins, intestinal barrier, [SDV.MP]Life Sciences [q-bio]/Microbiology and Parasitology, bacteriocin, microbiota, Humans, Listeriosis, [SDV.MP] Life Sciences [q-bio]/Microbiology and Parasitology

Abstract

Addendum to: Quereda JJ, Dussurget O, Nahori M-A, Ghozlane A, Volant S, Dillies M-A, Régnault B, Kennedy S, Mondot S, Villoing B, Cossart P, Pizarro-Cerdá J. Bacteriocin from epidemic Listeria strains alters the host intestinal microbiota to favor infection. Proc Nat Acad Sci USA 2016; 113:5706-11.; International audience; Listeria monocytogenes is a Gram-positive food-borne pathogen that in humans may traverse the intestinal, placental and blood/brain barriers, causing gastroenteritis, abortions and meningitis. Crossing of these barriers is dependent on the bacterial ability to enter host cells, and several L. monocytogenes surface and secreted virulence factors are known to facilitate entry and the intracellular lifecycle. The study of L. monocytogenes strains associated to human listeriosis epidemics has revealed the presence of novel virulence factors. One such factor is Listeriolysin S, a thiazole/oxazole modified microcin that displays bactericidal activity and modifies the host microbiota during infection. Our recent results therefore highlight the interaction of L. monocytogenes with gut microbes as a crucial step in epidemic listeriosis. In this article, we will discuss novel implications for this family of toxins in the pathogenesis of diverse medically relevant microorganisms.

13. Virulence potential of Listeria monocytogenesstrains recovered from pigs in Spain

Author

Gómez‐Laguna, Jaime, Cardoso‐Toset, Fernando, Meza‐Torres, Jazmín, Pizarro‐Cerdá, Javier, and Quereda, Juan J

Abstract

Listeria monocytogenesis a foodborne bacterial pathogen that causes listeriosis, an infectious disease in animals and people, with pigs acting as asymptomatic reservoirs. In August 2019 an outbreak associated with the consumption of pork meat caused 222 human cases of listeriosis in Spain. Determining the diversity as well as the virulence potential of strains from pigs is important to public health. The behaviour of 23 L monocytogenesstrains recovered from pig tonsils, meat and skin was compared by studying (1) internalin A, internalin B, listeriolysin O, actin assembly‐inducing protein and PrfA expression levels, and (2) their invasion and intracellular growth in eukaryotic cells. Marked differences were found in the expression of the selected virulence factors and the invasion and intracellular replication phenotypes of L monocytogenesstrains. Strains obtained from meat samples and belonging to serotype 1/2a did not have internalin A anchored to the peptidoglycan. Some strains expressed higher levels of the studied virulence factors and invaded and replicated intracellularly more efficiently than an epidemic L monocytogenesreference strain (F2365). This study demonstrates the presence of virulent L monocytogenesstrains with virulent potential in pigs, with valuable implications in veterinary medicine and food safety.

Published

2020

14. Brucella abortusSenses the Intracellular Environment through the BvrR/BvrS Two-Component System, Which Allows B. abortusTo Adapt to Its Replicative Niche

Author

Altamirano-Silva, Pamela, Meza-Torres, Jazmín, Castillo-Zeledón, Amanda, Ruiz-Villalobos, Nazareth, Zuñiga-Pereira, Ana Mariel, Chacón-Díaz, Carlos, Moreno, Edgardo, Guzmán-Verri, Caterina, and Chaves-Olarte, Esteban

Abstract

ABSTRACTBrucella abortusis a facultative extracellular-intracellular pathogen belonging to a group of Alphaproteobacteriathat establishes close interactions with animal cells. This bacterium enters host cells in a membrane-bound compartment, avoiding the lysosomal route and reaching the endoplasmic reticulum through the action of the type IV secretion system, VirB. In this work, we demonstrate that the BvrR/BvrS two-component system senses the intracellular environment to mount the transcriptional response required for intracellular life adaptation. By combining a method to purify intracellularly extracted bacteria with a strategy that allows direct determination of BvrR phosphorylation, we showed that upon entrance to host cells, the regulatory protein BvrR was activated (BvrR-P) by phosphorylation at aspartate 58. This activation takes place in response to intracellular cues found in early compartments, such as low pH and nutrient deprivation. Furthermore, BvrR activation was followed by an increase in the expression of VjbR and VirB. The in vitroactivation of this BvrR-P/VjbR/VirB virulence circuit rescued B. abortusfrom the inhibition of intracellular replication induced by bafilomycin treatment of cells, demonstrating the relevance of this mechanism for intracellular bacterial survival and replication. All together, our results indicate that B. abortussenses the transition from the extracellular to the intracellular milieu through BvrR/BvrS, allowing the bacterium to transit safely to its replicative niche. These results serve as a working model for understanding the role of this family of two-component systems in the adaptation to intracellular life of Alphaproteobacteria.

Published

2018

15. Listeriolysin S: A bacteriocin from epidemic Listeria monocytogenes strains that targets the gut microbiota.

Author

Quereda JJ, Meza-Torres J, Cossart P, and Pizarro-Cerdá J

Subjects

Bacteria classification, Bacteria genetics, Bacteria isolation & purification, Hemolysin Proteins metabolism, Humans, Listeria monocytogenes genetics, Bacteria drug effects, Gastrointestinal Microbiome drug effects, Hemolysin Proteins toxicity, Listeria monocytogenes metabolism, Listeriosis microbiology

Abstract

Listeria monocytogenes is a Gram-positive food-borne pathogen that in humans may traverse the intestinal, placental and blood/brain barriers, causing gastroenteritis, abortions and meningitis. Crossing of these barriers is dependent on the bacterial ability to enter host cells, and several L. monocytogenes surface and secreted virulence factors are known to facilitate entry and the intracellular lifecycle. The study of L. monocytogenes strains associated to human listeriosis epidemics has revealed the presence of novel virulence factors. One such factor is Listeriolysin S, a thiazole/oxazole modified microcin that displays bactericidal activity and modifies the host microbiota during infection. Our recent results therefore highlight the interaction of L. monocytogenes with gut microbes as a crucial step in epidemic listeriosis. In this article, we will discuss novel implications for this family of toxins in the pathogenesis of diverse medically relevant microorganisms.

Published

2017