Your search keyword '"Monnet, Véronique"' showing total 17 results

1. Bacterial protein signals are associated with Crohn’s disease

Author

Juste, Catherine, Kreil, David P, Beauvallet, Christian, Guillot, Alain, Vaca, Sebastian, Carapito, Christine, Mondot, Stanislas, Sykacek, Peter, Sokol, Harry, Blon, Florence, Lepercq, Pascale, Levenez, Florence, Valot, Benoît, Carré, Wilfrid, Loux, Valentin, Pons, Nicolas, David, Olivier, Schaeffer, Brigitte, Lepage, Patricia, Martin, Patrice, Monnet, Véronique, Seksik, Philippe, Beaugerie, Laurent, Ehrlich, S Dusko, Gibrat, Jean-François, Van Dorsselaer, Alain, and Doré, Joël

Published

2014

2. Comparison of Different Label-Free Techniques for the Semi-Absolute Quantification of Protein Abundance.

Author

Millán-Oropeza, Aarón, Blein-Nicolas, Mélisande, Monnet, Véronique, Zivy, Michel, and Henry, Céline

Published

2022

3. Identification of Hanks-Type Kinase PknB-Specific Targets in the Streptococcus thermophilus Phosphoproteome.

Author

Henry, Céline, Haller, Lucia, Blein-Nicolas, Mélisande, Zivy, Michel, Canette, Alexis, Verbrugghe, Morgane, Mézange, Christine, Boulay, Mylène, Gardan, Rozenn, Samson, Samantha, Martin, Véronique, André-Leroux, Gwenaëlle, and Monnet, Véronique

Subjects

STREPTOCOCCUS thermophilus, LACTIC acid bacteria, FOOD fermentation, POST-translational modification, CARBON metabolism, FUNCTIONAL groups

Abstract

Protein phosphorylation especially on serine/threonine/tyrosine residues are frequent in many bacteria. This post-translational modification has been associated with pathogenicity and virulence in various species. However, only few data have been produced so far on generally recognized as safe bacteria used in food fermentations. A family of kinases known as Hanks-type kinases is suspected to be responsible for, at least, a part of these phosphorylations in eukaryotes as in bacteria. The objective of our work was to establish the first phosphoproteome of Streptococcus thermophilus , a lactic acid bacterium widely used in dairy fermentations in order to identified the proteins and pathways tagged by Ser/Thr/Tyr phosphorylations. In addition, we have evaluated the role in this process of the only Hanks-type kinase encoded in the S. thermophilus genome. We have constructed a mutant defective for the Hanks type kinase in S. thermophilus and established the proteomes and phosphoproteomes of the wild type and the mutant strains. To do that, we have enriched our samples in phosphopeptides with titane beads and used dimethyl tags to compare phosphopeptide abundances. Peptides and phosphopeptides were analyzed on a last generation LC-MS/MS system. We have identified and quantified 891 proteins representing half of the theoretical proteome. Among these proteins, 106 contained phosphorylated peptides. Various functional groups of proteins (amino acid, carbon and nucleotide metabolism, translation, cell cycle, stress response, ...) were found phosphorylated. The phosphoproteome was only weakly reduced in the Hanks-type kinase mutant indicating that this enzyme is only one of the players in the phosphorylation process. The proteins that are modified by the Hanks-type kinase mainly belong to the divisome. [ABSTRACT FROM AUTHOR]

Published

2019

4. Insights Into the Complexity of Yeast Extract Peptides and Their Utilization by Streptococcus thermophilus.

Author

Proust, Lucas, Sourabié, Alain, Pedersen, Martin, Besançon, Iris, Haudebourg, Eloi, Monnet, Véronique, and Juillard, Vincent

Subjects

STREPTOCOCCUS thermophilus, YEAST extract, PEPTIDES, OLIGOPEPTIDES, AMINO acids, BIOREACTORS, MASS spectrometry

Abstract

Streptococcus thermophilus , an extensively used lactic starter, is generally produced in yeast extract-based media containing a complex mixture of peptides whose exact composition remains elusive. In this work, we aimed at investigating the peptide content of a commercial yeast extract (YE) and identifying dynamics of peptide utilization during the growth of the industrial S. thermophilus N4L strain, cultivated in 1 l bioreactors under pH-regulation. To reach that goal, we set up a complete analytical workflow based on mass spectrometry (peptidomics). About 4,600 different oligopeptides ranging from 6 to more than 30 amino acids in length were identified during the time-course of the experiment. Due to the low spectral abundance of individual peptides, we performed a clustering approach to decipher the rules of peptide utilization during fermentation. The physicochemical characteristics of consumed peptides perfectly matched the known affinities of the oligopeptide transport system of S. thermophilus. Moreover, by analyzing such a large number of peptides, we were able to establish that peptide net charge is the major factor for oligopeptide transport in S. thermophilus N4L. [ABSTRACT FROM AUTHOR]

Published

2019

5. Mycoplasmas are no exception to extracellular vesicles release: Revisiting old concepts.

Author

Gaurivaud, Patrice, Ganter, Sarah, Villard, Alexandre, Manso-Silvan, Lucia, Chevret, Didier, Boulé, Christelle, Monnet, Véronique, and Tardy, Florence

Subjects

MYCOPLASMATALES, GRAM-negative bacteria, ULTRACENTRIFUGATION, CELL membranes, ELECTRON microscopy

Abstract

Release of extracellular vesicles (EV) by Gram-negative and positive bacteria is being frequently reported. EV are nano-sized, membrane-derived, non-self-replicating, spherical structures shed into the extracellular environment that could play a role in bacteria-host interactions. Evidence of EV production in bacteria belonging to the class Mollicutes, which are wall-less, is mainly restricted to the genus Acholeplasma and is scanty for the Mycoplasma genus that comprises major human and animal pathogens. Here EV release by six Mycoplasma (sub)species of clinical importance was investigated. EV were obtained under nutritional stress conditions, purified by ultracentrifugation and observed by electron microscopy. The membrane proteins of EV from three different species were further identified by mass spectrometry as a preliminary approach to determining their potential role in host-pathogen interactions. EV were shown to be released by all six (sub)species although their quantities and sizes (30–220 nm) were very variable. EV purification was complicated by the minute size of viable mycoplasmal cells. The proteins of EV-membranes from three (sub)species included major components of host-pathogen interactions, suggesting that EV could contribute to make the host-pathogen interplay more complex. The process behind EV release has yet to be deciphered, although several observations demonstrated their active release from the plasma membrane of living cells. This work shed new light on old concepts of “elementary bodies” and “not-cell bound antigens”. [ABSTRACT FROM AUTHOR]

Published

2018

6. Proteomic Response of Pseudomonas aeruginosa PAO1 Adhering to Solid Surfaces.

Author

Guilbaud, Morgan, Bruzaud, Jérôme, Bouffartigues, Emeline, Orange, Nicole, Guillot, Alain, Aubert-Frambourg, Anne, Monnet, Véronique, Herry, Jean-Marie, Chevalier, Sylvie, and Bellon-Fontaine, Marie-Noëlle

Subjects

PSEUDOMONAS aeruginosa, PROTEOMICS

Abstract

Pseudomonas aeruginosa is a pathogenic micro-organism responsible for many hospital-acquired infections. It is able to adhere to solid surfaces and develop an immobilized community or so-called biofilm. Many studies have been focusing on the use of specific materials to prevent the formation of these biofilms, but the reactivity of the bacteria in contact to surfaces remains unknown. The aim of this study was to evaluate the impact of the abiotic surface on the physiology of adherent bacteria. Three different materials, stainless steel (SS), glass (G), and polystyrene (PS) that were relevant to industrial or medical environments were characterized at the physicochemical level in terms of their hydrophobicity and roughness. We showed that SS was moderately hydrophilic and rough, potentially containing crevices, G was hydrophilic and smooth while PS was hydrophobic and smooth. We further showed that P. aeruginosa cells were more likely able to adhere to SS and G rather than PS surfaces under our experimental conditions. The physiological response of P. aeruginosa when adhering to each of these materials was then evaluated by global proteomic analysis. The abundance of 70 proteins was shown to differ between the materials suggesting that their abundance was modified as a function of the material to which bacteria adhered. Our data lead to enabling the identification of abundance patterns that appeared to be specific to a given surface. Taken together, our data showed that P. aeruginosa is capable of sensing and responding to a surface probably via specific programmes to adapt its physiological response accordingly. [ABSTRACT FROM AUTHOR]

Published

2017

7. Whole Proteome Analyses on Ruminiclostridium cellulolyticum Show a Modulation of the Cellulolysis Machinery in Response to Cellulosic Materials with Subtle Differences in Chemical and Structural Properties.

Author

Badalato, Nelly, Guillot, Alain, Sabarly, Victor, Dubois, Marc, Pourette, Nina, Pontoire, Bruno, Robert, Paul, Bridier, Arnaud, Monnet, Véronique, Sousa, Diana Z., Durand, Sylvie, Mazéas, Laurent, Buléon, Alain, Bouchez, Théodore, Mortha, Gérard, and Bize, Ariane

Subjects

PROTEOMICS, CELLULOSE, SOLID waste, ANAEROBIC digestion, CELLULOLYTIC bacteria

Abstract

Lignocellulosic materials from municipal solid waste emerge as attractive resources for anaerobic digestion biorefinery. To increase the knowledge required for establishing efficient bioprocesses, dynamics of batch fermentation by the cellulolytic bacterium Ruminiclostridium cellulolyticum were compared using three cellulosic materials, paper handkerchief, cotton discs and Whatman filter paper. Fermentation of paper handkerchief occurred the fastest and resulted in a specific metabolic profile: it resulted in the lowest acetate-to-lactate and acetate-to-ethanol ratios. By shotgun proteomic analyses of paper handkerchief and Whatman paper incubations, 151 proteins with significantly different levels were detected, including 20 of the 65 cellulosomal components, 8 non-cellulosomal CAZymes and 44 distinct extracytoplasmic proteins. Consistent with the specific metabolic profile observed, many enzymes from the central carbon catabolic pathways had higher levels in paper handkerchief incubations. Among the quantified CAZymes and cellulosomal components, 10 endoglucanases mainly from the GH9 families and 7 other cellulosomal subunits had lower levels in paper handkerchief incubations. An in-depth characterization of the materials used showed that the lower levels of endoglucanases in paper handkerchief incubations could hypothetically result from its lower crystallinity index (50%) and degree of polymerization (970). By contrast, the higher hemicellulose rate in paper handkerchief (13.87%) did not result in the enhanced expression of enzyme with xylanase as primary activity, including enzymes from the “xyl-doc” cluster. It suggests the absence, in this material, of molecular structures that specifically lead to xylanase induction. The integrated approach developed in this work shows that subtle differences among cellulosic materials regarding chemical and structural characteristics have significant effects on expressed bacterial functions, in particular the cellulolysis machinery, resulting in different metabolic patterns and degradation dynamics. [ABSTRACT FROM AUTHOR]

Published

2017

8. Mass Spectrometry Analysis of the Extracellular Peptidome of Lactococcus lactis: Lines of Evidence for the Coexistence of Extracellular Protein Hydrolysis and Intracellular Peptide Excretion.

Author

Guillot, Alain, Boulay, Mylène, Chambellon, Émilie, Gitton, Christophe, Monnet, Véronique, and Juillard, Vincent

Published

2016

9. Bacterial Cell-Cell Communication in the Host via RRNPP Peptide-Binding Regulators.

Author

Perez-Pascual, David, Monnet, Véronique, and Gardan, Rozenn

Subjects

BACTERIAL cells, PEPTIDES, HUMAN microbiota, GENE expression, MOLECULAR genetics

Abstract

Human microbiomes are composed of complex and dense bacterial consortia. In these environments, bacteria are able to react quickly to change by coordinating their gene expression at the population level via small signaling molecules. In Gram-positive bacteria, cell-cell communication is mostly mediated by peptides that are released into the extracellular environment. Cell-cell communication based on these peptides is especially widespread in the group Firmicutes, in which they regulate a wide array of biological processes, including functions related to host-microbe interactions. Among the different agents of communication, the RRNPP family of cytoplasmic transcriptional regulators, together with their cognate re-internalized signaling peptides, represents a group of emerging importance. RRNPP members that have been studied so far are found mainly in species of bacilli, streptococci, and enterococci. These bacteria are characterized as both human commensal and pathogenic, and share different niches in the human body with other microorganisms. The goal of this mini-review is to present the current state of research on the biological relevance of RRNPP mechanisms in the context of the host, highlighting their specific roles in commensalism or virulence. [ABSTRACT FROM AUTHOR]

Published

2016

10. Peptide conversations in Gram-positive bacteria.

Author

Monnet, Véronique, Juillard, Vincent, and Gardan, Rozenn

Subjects

*GRAM-positive bacteria, *GENE expression, *CELL communication, *PHEROMONES, *MICROBIAL virulence

Abstract

Within Gram-positive bacteria, the expression of target genes is controlled at the population level via signaling peptides, also known as pheromones. Pheromones control a wide range of functions, including competence, virulence, and others that remain unknown. Until now, their role in bacterial gene regulation has probably been underestimated; indeed, bacteria are able to produce, by ribosomal synthesis or surface protein degradation, an extraordinary variety of peptides which are released outside bacteria and among which, some are pheromones that mediate cell-to-cell communication. The review aims at giving an updated overview of these peptide-dependant communication pathways. More specifically, it follows the whole peptide circuit from the peptide production and secretion in the extracellular medium to its interaction with sensors at bacterial surface or re-import into the bacteria where it plays its regulation role. In recent years, as we have accumulated more knowledge about these systems, it has become apparent that they are more complex than they first appeared. For this reason, more research on peptide-dependant pathways is needed to develop new strategies for controlling functions of interest in Gram-positive bacteria. In particular, such research could lead to alternatives to the use of antibiotics against pathogenic bacteria. In perspective, the review identifies new research questions that emerge in this field and that have to be addressed. [ABSTRACT FROM PUBLISHER]

Published

2016

11. Shotgun metaproteomic profiling of biomimetic anaerobic digestion processes treating sewage sludge.

Author

Bize, Ariane, Cardona, Laëtitia, Desmond‐Le Quéméner, Elie, Battimelli, Audrey, Badalato, Nelly, Bureau, Chrystelle, Madigou, Céline, Chevret, Didier, Guillot, Alain, Monnet, Véronique, Godon, Jean‐Jacques, and Bouchez, Théodore

Published

2015

12. Quantitative Proteome Analyses Identify PrfA-Responsive Proteins and Phosphoproteins in Listeria monocytogenes.

Author

Misra, Sandeep Kumar, Aké, Francine Moussan Désirée, Zongfu Wu, Milohanic, Eliane, Thanh Nguyen Cao, Cossart, Pascale, Deutscher, Josef, Monnet, Véronique, Archambaud, Cristel, and Henry, Céline

Published

2014

13. Export of Rgg Quorum Sensing Peptides is Mediated by the PptAB ABC Transporter in Streptococcus Thermophilus Strain LMD-9.

Author

Lingeswaran, Abarna, Metton, Coralie, Henry, Céline, Monnet, Véronique, Juillard, Vincent, and Gardan, Rozenn

Subjects

STREPTOCOCCUS thermophilus, QUORUM sensing, ATP-binding cassette transporters, LIQUID chromatography-mass spectrometry, PEPTIDES, SIGNAL peptides, PROTEOLYTIC enzymes, OLIGOPEPTIDES

Abstract

In streptococci, intracellular quorum sensing pathways are based on quorum-sensing systems that are responsible for peptide secretion, maturation, and reimport. These peptides then interact with Rgg or ComR transcriptional regulators in the Rap, Rgg, NprR, PlcR, and PrgX (RRNPP) family, whose members are found in Gram-positive bacteria. Short hydrophobic peptides (SHP) interact with Rgg whereas ComS peptides interact with ComR regulators. To date, in Streptococcus thermophilus, peptide secretion, maturation, and extracellular fate have received little attention, even though this species has several (at least five) genes encoding Rgg regulators and one encoding a ComR regulator. We studied pheromone export in this species, focusing our attention on PptAB, which is an exporter of signaling peptides previously identified in Enterococcus faecalis, pathogenic streptococci and Staphylococcus aureus. In the S. thermophilus strain LMD-9, we showed that PptAB controlled three regulation systems, two SHP/Rgg systems (SHP/Rgg1358 and SHP/Rgg1299), and the ComS/ComR system, while using transcriptional fusions and that PptAB helped to produce and export at least three different mature SHPs (SHP1358, SHP1299, and SHP279) peptides while using liquid chromatography-tandem mass spectrometry (LC-MS/MS). Using a deep sequencing approach (RNAseq), we showed that the exporter PptAB, the membrane protease Eep, and the oligopeptide importer Ami controlled the transcription of the genes that were located downstream from the five non-truncated rgg genes as well as few distal genes. This led us to propose that the five non-truncated shp/rgg loci were functional. Only three shp genes were expressed in our experimental condition. Thus, this transcriptome analysis also highlighted the complex interconnected network that exists between SHP/Rgg systems, where a few homologous signaling peptides likely interact with different regulators. [ABSTRACT FROM AUTHOR]

Published

2020

14. Three Distinct Proteases Are Responsible for Overall Cell Surface Proteolysis in Streptococcus thermophilus.

Author

Boulay, Mylène, Metton, Coralie, Mézange, Christine, Correia, Lydie Oliveira, Meylheuc, Thierry, Monnet, Véronique, Gardan, Rozenn, and Juillard, Vincent

Subjects

*CELL membranes, *STREPTOCOCCUS thermophilus, *PROTEOLYSIS, *LACTIC acid bacteria, *STREPTOCOCCUS mutans, *BACTERIAL cell walls

Abstract

The lactic acid bacterium Streptococcus thermophilus was believed to display only two distinct proteases at the cell surface, namely, the cell envelope protease PrtS and the housekeeping protease HtrA. Using peptidomics, we demonstrate here the existence of an additional active cell surface protease, which shares significant homology with the SepM protease of Streptococcus mutans. Although all three proteases--PrtS, HtrA, and SepM--are involved in the turnover of surface proteins, they demonstrate distinct substrate specificities. In particular, SepM cleaves proteins involved in cell wall metabolism and cell elongation, and its inactivation has consequences for cell morphology. When all three proteases are inactivated, the residual cell-surface proteolysis of S. thermophilus is approximately 5% of that of the wildtype strain. [ABSTRACT FROM AUTHOR]

Published

2021

15. Multi-omics approach reveals how yeast extract peptides shape Streptococcus thermophilus metabolism.

Author

Proust, Lucas, Haudebourg, Eloi, Sourabié, Alain, Pedersen, Martin, Besançon, Iris, Monnet, Véronique, and Juillard, Vincent

Subjects

*STREPTOCOCCUS thermophilus, *YEAST extract, *LACTIC acid bacteria, *BACTERIAL proteins, *QUORUM sensing, *PROTEIN expression

Abstract

Peptides present in growth media are essential for nitrogen nutrition and optimal growth of lactic acid bacteria. In addition, according to their amino acid composition, they can also directly or indirectly play regulatory roles and influence the global metabolism. This is especially relevant during the propagation phase to produce high cell counts of active lactic acid bacteria used as starters in the dairy industry. In the present work, we aimed at investigating how the respective compositions of two different yeast extracts, with a specific focus on peptide content, influenced Streptococcus thermophilus metabolism during growth under pH-controlled conditions. In addition to free amino acids quantification, we used a multi-omics approach (peptidomics, proteomics and transcriptomics) to identify peptide initially present in the two culture media, and to follow S. thermophilus gene expression and bacterial protein production during growth. The free amino acid and peptide composition of the two yeast extracts differed qualitatively and quantitatively. Nevertheless, the two yeast extracts sustained similar growth of S. thermophilus and led to equivalent final biomasses. However, transcriptomics and proteomics showed differential gene expression and protein production in several S. thermophilus metabolic pathways, especially amino acid, citrate, urease, purine and pyrimidine metabolisms. The probable role of the regulator CodY is discussed in this context. Moreover, we observed significant differences in the production of regulators and of a quorum sensing regulatory system. The possible roles of yeast extract peptides on the modulation of the quorum sensing system expression are evaluated. [ABSTRACT FROM AUTHOR]

Published

2020

16. Complete Genome Sequence of the Industrial Fast-Acidifying Strain Streptococcus thermophilus N4L.

Author

Proust L, Loux V, Martin V, Magnabosco C, Pedersen M, Monnet V, and Juillard V

Abstract

Streptococcus thermophilus is one of the most used dairy starters for the production of yogurt and cheese. We report here the complete genome sequence of the industrial strain S. thermophilus N4L, which is used in dairy technology for its fast-acidifying phenotype.

Published

2018

17. RovS and its associated signaling peptide form a cell-to-cell communication system required for Streptococcus agalactiae pathogenesis.

Author

Pérez-Pascual D, Gaudu P, Fleuchot B, Besset C, Rosinski-Chupin I, Guillot A, Monnet V, and Gardan R

Subjects

Animals, Bacterial Proteins, Gene Expression Regulation, Bacterial, Humans, Mice, Peptides genetics, Protein Sorting Signals, Streptococcal Infections genetics, Streptococcus agalactiae cytology, Streptococcus agalactiae genetics, Virulence, Peptides metabolism, Streptococcal Infections metabolism, Streptococcal Infections microbiology, Streptococcus agalactiae metabolism, Streptococcus agalactiae pathogenicity

Abstract

Unlabelled: Bacteria can communicate with each other to coordinate their biological functions at the population level. In a previous study, we described a cell-to-cell communication system in streptococci that involves a transcriptional regulator belonging to the Rgg family and short hydrophobic peptides (SHPs) that act as signaling molecules. Streptococcus agalactiae, an opportunistic pathogenic bacterium responsible for fatal infections in neonates and immunocompromised adults, has one copy of the shp/rgg locus. The SHP-associated Rgg is called RovS in S. agalactiae. In this study, we found that the SHP/RovS cell-to-cell communication system is active in the strain NEM316 of S. agalactiae, and we identified different partners that are involved in this system, such as the Eep peptidase, the PptAB, and the OppA1-F oligopeptide transporters. We also identified a new target gene controlled by this system and reexamined the regulation of a previously proposed target gene, fbsA, in the context of the SHP-associated RovS system. Furthermore, our results are the first to indicate the SHP/RovS system specificity to host liver and spleen using a murine model, which demonstrates its implication in streptococci virulence. Finally, we observed that SHP/RovS regulation influences S. agalactiae's ability to adhere to and invade HepG2 hepatic cells. Hence, the SHP/RovS cell-to-cell communication system appears to be an essential mechanism that regulates pathogenicity in S. agalactiae and represents an attractive target for the development of new therapeutic strategies., Importance: Rgg regulators and their cognate pheromones, called small hydrophobic peptides (SHPs), are present in nearly all streptococcal species. The general pathways of the cell-to-cell communication system in which Rgg and SHP take part are well understood. However, many other players remain unidentified, and the direct targets of the system, as well as its link to virulence, remain unclear. Here, we identified the different players involved in the SHP/Rgg system in S. agalactiae, which is the leading agent of severe infections in human newborns. We have identified a direct target of the Rgg regulator in S. agalactiae (called RovS) and examined a previously proposed target, all in the context of associated SHP. For the first time, we have also demonstrated the implication of the SHP/RovS mechanism in virulence, as well as its host organ specificity. Thus, this cell-to-cell communication system may represent a future target for S. agalactiae disease treatment., (Copyright © 2015 Pérez-Pascual et al.)

Published

2015