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

1. 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

2. 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

3. 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

4. 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

5. 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

6. Metaproteomics of cellulose methanisation under thermophilic conditions reveals a surprisingly high proteolytic activity.

Author

Lü, Fan, Bize, Ariane, Guillot, Alain, Monnet, Véronique, Madigou, Céline, Chapleur, Olivier, Mazéas, Laurent, He, Pinjing, and Bouchez, Théodore

Subjects

*PROTEOMICS, *CELLULOSE, *THERMOPHILIC bacteria, *PROTEOLYTIC enzymes, *ENZYME activation, *DNA replication, *FLUORESCENCE in situ hybridization

Abstract

Cellulose is the most abundant biopolymer on Earth. Optimising energy recovery from this renewable but recalcitrant material is a key issue. The metaproteome expressed by thermophilic communities during cellulose anaerobic digestion was investigated in microcosms. By multiplying the analytical replicates (65 protein fractions analysed by MS/MS) and relying solely on public protein databases, more than 500 non-redundant protein functions were identified. The taxonomic community structure as inferred from the metaproteomic data set was in good overall agreement with 16S rRNA gene tag pyrosequencing and fluorescent in situ hybridisation analyses. Numerous functions related to cellulose and hemicellulose hydrolysis and fermentation catalysed by bacteria related to Caldicellulosiruptor spp. and Clostridium thermocellum were retrieved, indicating their key role in the cellulose-degradation process and also suggesting their complementary action. Despite the abundance of acetate as a major fermentation product, key methanogenesis enzymes from the acetoclastic pathway were not detected. In contrast, enzymes from the hydrogenotrophic pathway affiliated to Methanothermobacter were almost exclusively identified for methanogenesis, suggesting a syntrophic acetate oxidation process coupled to hydrogenotrophic methanogenesis. Isotopic analyses confirmed the high dominance of the hydrogenotrophic methanogenesis. Very surprising was the identification of an abundant proteolytic activity from Coprothermobacter proteolyticus strains, probably acting as scavenger and/or predator performing proteolysis and fermentation. Metaproteomics thus appeared as an efficient tool to unravel and characterise metabolic networks as well as ecological interactions during methanisation bioprocesses. More generally, metaproteomics provides direct functional insights at a limited cost, and its attractiveness should increase in the future as sequence databases are growing exponentially. [ABSTRACT FROM AUTHOR]

Published

2014

7. Rgg-Associated SHP Signaling Peptides Mediate Cross-Talk in Streptococci.

Author

Fleuchot, Betty, Guillot, Alain, Mézange, Christine, Besset, Colette, Chambellon, Emilie, Monnet, Véronique, and Gardan, Rozenn

Subjects

*CELLULAR signal transduction, *STREPTOCOCCUS, *QUORUM sensing, *GENETIC regulation, *GENETIC transcription, *PEPTIDOMIMETICS, *MASS spectrometry

Abstract

We described a quorum-sensing mechanism in the streptococci genus involving a short hydrophobic peptide (SHP), which acts as a pheromone, and a transcriptional regulator belonging to the Rgg family. The shp/rgg genes, found in nearly all streptococcal genomes and in several copies in some, have been classified into three groups. We used a genetic approach to evaluate the functionality of the SHP/Rgg quorum-sensing mechanism, encoded by three selected shp/rgg loci, in pathogenic and non-pathogenic streptococci. We characterized the mature form of each SHP pheromone by mass-spectrometry. We produced synthetic peptides corresponding to these mature forms, and used them to study functional complementation and cross-talk between these different SHP/Rgg systems. We demonstrate that a SHP pheromone of one system can influence the activity of a different system. Interestingly, this does not seem to be dependent on the SHP/Rgg group and cross-talk between pathogenic and non-pathogenic streptococci is observed. [ABSTRACT FROM AUTHOR]

Published

2013

8. Extracellular Life Cycle of ComS, the Competence-Stimulating Peptide of Streptococcus thermophilus.

Author

Gardan, Rozenn, Besset, Colette, Gitton, Christophe, Guillot, Alain, Fontaine, Laetitia, Hols, Pascal, and Monnet, Véronique

Abstract

In streptococci, ComX is the alternative sigma factor controlling the transcription of the genes encoding the genetic transformation machinery. In Streptococcus thermophilus, comX transcription is controlled by a complex consisting of a transcriptional regulator of the Rgg family, ComR, and a signaling peptide, ComS, which controls ComR activity. Following its initial production, ComS is processed, secreted, and imported back into the cell by the Ami oligopeptide transporter. We characterized these steps and the partners interacting with ComS during its extracellular circuit in more detail. We identified the mature form of ComS and demonstrated the involvement of the membrane protease Eep in ComS processing. We found that ComS was secreted but probably not released into the extracellular medium. Natural competence was first discovered in a chemically defined medium without peptides. We show here that the presence of a high concentration of nutritional peptides in the medium prevents the triggering of competence. In milk, the ecological niche of S. thermophilus, competence was found to be functional, suggesting that the concentration of nutritional peptides was too low to interfere with ComR activation. The kinetics of expression of the comS, comR, and comX genes and of a late competence gene, dprA, in cultures inoculated at different initial densities revealed that the activation mechanism of ComR by ComS is more a timing device than a quorum-sensing mechanism sensu stricto. We concluded that the ComS extracellular circuit facilitates tight control over the triggering of competence in S. thermophilus. [ABSTRACT FROM AUTHOR]

Published

2013

9. Investigation of the adaptation of Lactococcus lactis to isoleucine starvation integrating dynamic transcriptome and proteome information.

Author

Dressaire, Clémentine, Redon, Emma, Gitton, Christophe, Loubière, Pascal, Monnet, Véronique, and Cocaign-Bousquet, Muriel

Subjects

*FUNGUS-bacterium relationships, *PROKARYOTES, *MICROBIAL growth, *BACTERIAL growth, *LEAVENING agents, *BAKING powder

Abstract

Background: Amino acid assimilation is crucial for bacteria and this is particularly true for Lactic Acid Bacteria (LAB) that are generally auxotroph for amino acids. The global response of the LAB model Lactococcus lactis ssp. lactis was characterized during progressive isoleucine starvation in batch culture using a chemically defined medium in which isoleucine concentration was fixed so as to become the sole limiting nutriment. Dynamic analyses were performed using transcriptomic and proteomic approaches and the results were analysed conjointly with fermentation kinetic data. Results: The response was first deduced from transcriptomic analysis and corroborated by proteomic results. It occurred progressively and could be divided into three major mechanisms: (i) a global down-regulation of processes linked to bacterial growth and catabolism (transcription, translation, carbon metabolism and transport, pyrimidine and fatty acid metabolism), (ii) a specific positive response related to the limiting nutrient (activation of pathways of carbon or nitrogen metabolism and leading to isoleucine supply) and (iii) an unexpected oxidative stress response (positive regulation of aerobic metabolism, electron transport, thioredoxin metabolism and pyruvate dehydrogenase). The involvement of various regulatory mechanisms during this adaptation was analysed on the basis of transcriptomic data comparisons. The global regulator CodY seemed specifically dedicated to the regulation of isoleucine supply. Other regulations were massively related to growth rate and stringent response. Conclusion: This integrative biology approach provided an overview of the metabolic pathways involved during isoleucine starvation and their regulations. It has extended significantly the physiological understanding of the metabolism of L. lactis ssp. lactis. The approach can be generalised to other conditions and will contribute significantly to the identification of the biological processes involved in complex regulatory networks of micro-organisms. [ABSTRACT FROM AUTHOR]

Published

2011

10. Transcriptome and Proteome Exploration to Model Translation Efficiency and Protein Stability in Lactococcus lactis.

Author

Dressaire, Clémentine, Gitton, Christophe, Loubière, Pascal, Monnet, Véronique, Queinnec, Isabelle, and Cocaign-Bousquet, Muriel

Subjects

*LACTOCOCCUS lactis, *GENETIC transcription, *GENETIC translation, *MESSENGER RNA, *PROTEINS, *MICROORGANISMS, *DENATURATION of proteins

Abstract

This genome-scale study analysed the various parameters influencing protein levels in cells. To achieve this goal, the model bacterium Lactococcus lactis was grown at steady state in continuous cultures at different growth rates, and proteomic and transcriptomic data were thoroughly compared. Ratios of mRNA to protein were highly variable among proteins but also, for a given gene, between the different growth conditions. The modeling of cellular processes combined with a data fitting modeling approach allowed both translation efficiencies and degradation rates to be estimated for each protein in each growth condition. Estimated translational efficiencies and degradation rates strongly differed between proteins and were tested for their biological significance through statistical correlations with relevant parameters such as codon or amino acid bias. These efficiencies and degradation rates were not constant in all growth conditions and were inversely proportional to the growth rate, indicating a more efficient translation at low growth rate but an antagonistic higher rate of protein degradation. Estimated protein median half-lives ranged from 23 to 224 min, underlying the importance of protein degradation notably at low growth rates. The regulation of intracellular protein level was analysed through regulatory coefficient calculations, revealing a complex control depending on protein and growth conditions. The modeling approach enabled translational efficiencies and protein degradation rates to be estimated, two biological parameters extremely difficult to determine experimentally and generally lacking in bacteria. This method is generic and can now be extended to other environments and/or other micro-organisms. [ABSTRACT FROM AUTHOR]

Published

2009

11. The Oligopeptide Transport System Is Essential for the Development of Natural Competence in Streptococcus thermophilus Strain LMD-9.

Author

Gardan, Rozenn, Besset, Colette, Guillot, Alain, Gitton, Christophe, and Monnet, Véronique

Subjects

*GRAM-positive bacteria, *OLIGOPEPTIDES, *STREPTOCOCCUS thermophilus, *QUORUM sensing, *PROTEOMICS, *ELECTROPHORESIS, *CHROMATOGRAPHIC analysis, *OPERONS, *GENES

Abstract

In gram-positive bacteria, oligopeptide transport systems, called Opp or Ami, play a role in nutrition but are also involved in the internalization of signaling peptides that take part in the functioning of quorum-sensing pathways. Our objective was to reveal functions that are controlled by Ami via quorum-sensing mechanisms in Streptococcus thermophilus, a nonpathogenic bacterium widely used in dairy technology in association with other bacteria. Using a label-free proteomic approach combining one-dimensional electrophoresis with liquid chromatography-tandem mass spectrometry analysis, we compared the proteome of the S. thermophilus LMD-9 to that of a mutant deleted for the subunits C, D, and E of the ami operon. Both strains were grown in a chemically defined medium (CDM) without peptides. We focused our attention on proteins that were no more detected in the ami deletion mutant. In addition to the three subunits of the Ami transporter, 17 proteins fulfilled this criterion and, among them, 7 were similar to proteins that have been identified as essential for transformation in S. pneumoniae. These results led us to find a condition of growth, the early exponential state in CDM, that allows natural transformation in S. thermophilus LMD-9 to turn on spontaneously. Cells were not competent in M17 rich medium. Furthermore, we demonstrated that the Ami transporter controls the triggering of the competencestate through the control of the transcription of comX, itself controlling the transcription of late competence genes. We also showed that one of the two oligopeptide-binding proteins of strain LMD-9 plays the predominant role in the control of competence. [ABSTRACT FROM AUTHOR]

Published

2009

12. Postgenomic Analysis of Streptococcus thermophilus Cocultivated in Milk with Lactobacillus delbrueckii subsp. bulgaricus: Involvement of Nitrogen, Purine, and Iron Metabolism.

Author

Herve-Jimenez, Luciana, Guillouard, Isabelle, Guedon, Eric, Boudebbouze, Samira, Hols, Pascal, Monnet, Véronique, Maguin, Emmanuelle, and Rul, Francoise

Subjects

*STREPTOCOCCUS thermophilus, *LACTOBACILLUS, *PROTEOMICS, *NITROGEN, *PURINES, *IRON metabolism, *MICROBIAL ecology, *BACTERIAL ecology, *MICROBIOLOGY

Abstract

Streptococcus thermophilus is one of the most widely used lactic acid bacteria in the dairy industry, in particular in yoghurt manufacture, where it is associated with Lactobacillus delbrueckii subsp. bulgaricus. This bacterial association, known as a proto-cooperation, is poorly documented at the molecular and regulatory levels. We thus investigate the kinetics of the transcriptomic and proteomic modifications of S. thermophilus LMG 18311 in response to the presence of L. delbrueckii subsp. bulgaricus ATCC 11842 during growth in milk at two growth stages. Seventy-seven different genes or proteins (4.1% of total coding sequences), implicated mainly in the metabolism of nitrogen (24%), nucleotide base (21%), and iron (20%), varied specifically in coculture. One of the most unpredicted results was a significant decrease of most of the transcripts and enzymes involved in purine biosynthesis. Interestingly, the expression of nearly all genes potentially encoding iron transporters of S. thermophilus decreased, whereas that of iron-chelating dpr as well as that of the fur (perR) regulator genes increased, suggesting a reduction in the intracellular iron concentration, probably in response to H2O2 production by L. bulgaricus. The present study reveals undocumented nutritional exchanges and regulatory relationships between the two yoghurt bacteria, which provide new molecular clues for the understanding of their associative behavior. [ABSTRACT FROM AUTHOR]

Published

2009

13. A genome-wide survey of short coding sequences in streptococci.

Author

Ibrahim, Mariam, Nicolas, Pierre, Bessiëres, Philippe, Bolotin, Alexander, Monnet, Véronique, and Gardan, Rozenn

Subjects

*STREPTOCOCCUS genetics, *STREPTOCOCCACEAE, *BACTERIAL genetics, *BACTERIOLOGY, *MICROBIAL genetics, *MICROBIAL genomics, *GENOMES, *GENOMICS, *MOLECULAR genetics

Abstract

The article offers a genome-wide survey of short coding sequences (CDSs) in streptococci. The section reports a thorough search for short CDSs across streptococcal genomes. It describes the discovery of a new family of CDSs that encodes hydrophobic peptides located just upstream of genes encoding transcriptional regulators of the Rgg family. It examined the transcription of seven genes of Streptococci thermophilus, six selected from those with extrinsic evidence that could be linked to quorum sensing and one selected from those with only intrinsic evidence, using real-time quantitative RT-PCR.

Published

2007

14. New insights in the molecular biology and physiology of Streptococcus thermophilus revealed by comparative genomics

Author

Hols, Pascal, Hancy, Frédéric, Fontaine, Laetitia, Grossiord, Benoît, Prozzi, Deborah, Leblond-Bourget, Nathalie, Decaris, Bernard, Bolotin, Alexander, Delorme, Christine, Dusko Ehrlich, S., Guédon, Eric, Monnet, Véronique, Renault, Pierre, and Kleerebezem, Michiel

Subjects

*STREPTOCOCCUS, *GENETICS, *METABOLISM, *BIOCHEMISTRY

Abstract

Abstract: Streptococcus thermophilus is a major dairy starter used for the manufacture of yoghurt and cheese. The access to three genome sequences, comparative genomics and multilocus sequencing analyses suggests that this species recently emerged and is still undergoing a process of regressive evolution towards a specialised bacterium for growth in milk. Notably, S. thermophilus has maintained a well-developed nitrogen metabolism whereas its sugar catabolism has been subjected to a high level of degeneracy due to a paucity of carbon sources in milk. Furthermore, while pathogenic streptococci are recognised for a high capacity to expose proteins at their cell surface in order to achieve cell adhesion or to escape the host immune system, S. thermophilus has nearly lost this unique feature as well as many virulence-related functions. Although gene decay is obvious in S. thermophilus genome evolution, numerous small genomic islands, which were probably acquired by horizontal gene transfer, comprise important industrial phenotypic traits such as polysaccharide biosynthesis, bacteriocin production, restriction–modification systems or oxygen tolerance. [Copyright &y& Elsevier]

Published

2005

15. Casein Utilization by Streptococcus thermophilus Results in a Diauxic Growth in Milk.

Author

Letort, Catherine, Nardi, Michèle, Garault, Peggy, Monnet, Véronique, and Juillard, Vincent

Subjects

*STREPTOCOCCUS thermophilus, *PROTEINASES, *AMINO acids

Abstract

Describes the growth phases of Streptococcus thermophilus in milk. Relationship between proteolysis and growth of S. thermophilus; Ability to produce a functional cell wall proteinase; Increase in the concentrations of free amino acids.

Published

2002

16. 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

17. Control of the Transcription of a Short Gene Encoding a Cyclic Peptide in Streptococcus thermophilus: a New Quorum-Sensing System?

Author

Ibrahim, Mariam, Guillot, Alain, Wessner, Francoise, Algaron, Florence, Besset, Colette, Courtin, Pascal, Gardan, Rozenn, and Monnet, Véronique

Subjects

*GRAM-positive bacteria, *PEPTIDES, *ANTI-infective agents, *GENES, *DEHYDROGENATION, *OLIGOPEPTIDES

Abstract

Gram-positive bacteria secrete a variety of peptides that are often subjected to posttranslational modifications and that are either antimicrobials or pheromones involved in bacterial communication. Our objective was to identify peptides secreted by Streptococcus thermophilus, a nonpathogenic bacterium widely used in dairy technology in association with other bacteria, and to understand their potential roles in cell-cell communication. Using reverse-phase liquid chromatography, mass spectrometry, and Edman sequencing, we analyzed the culture supernatants of three S. thermophilus strains (CNRZ1066, LMG18311, and LMD-9) grown in a medium containing no peptides. We identified several peptides in the culture supernatants, some of them found with the three strains while others were specific to the LMD-9 strain. We focused our study on a new modified peptide secreted by S. thermophilus LMD-9 and designated Pep1357C. This peptide contains 9 amino acids and lost 2 Da in a posttranslational modification, most probably a dehydrogenation, leading to a linkage between the Lys2 and Trp6 residues. Production of Pep1357C and transcription of its encoding gene depend on both the medium composition and the growth phase. Furthermore, we demonstrated that transcription of the gene coding for Pep1357C is drastically decreased in mutants inactivated for the synthesis of a short hydrophobic peptide, a transcriptional regulator, or the oligopeptide transport system. Taken together, our results led us to deduce that the transcription of the Pep1357C-encoding gene is controlled by a new quorum-sensing system. [ABSTRACT FROM AUTHOR]

Published

2007