Your search keyword '"Briandet, R."' showing total 13 results

1. MICROSCOPY | Confocal Laser Scanning Microscopy

Author

Canette, A., primary and Briandet, R., additional

Published

2014

2. Prevalence and Characterization of Staphylococcus aureus Isolated from Meat and Milk in Northeastern Italy.

Author

Pinamonti D, Manzano M, Maifreni M, Bianco S, Domi B, Ferrin A, Anba-Mondoloni J, Dechamps J, Briandet R, and Vidic J

Subjects

Italy, Animals, Prevalence, Humans, Microbial Sensitivity Tests, Methicillin-Resistant Staphylococcus aureus, Biofilms, Food Microbiology, Caco-2 Cells, Food Contamination analysis, Staphylococcus aureus, Milk microbiology, Anti-Bacterial Agents pharmacology, Meat microbiology

Abstract

Staphylococcus aureus is a pathogenic microorganism often found in animal-derived foods and is known for its ability to readily develop resistance to antibiotic treatments. This study was designed to determine the prevalence of S. aureus strains in raw milk and meat in Italy and to evaluate their antibiotic resistance profiles and biofilm production. Among the meat isolates, 41.67% were resistant to ampicillin, and 25% were methicillin-resistant S. aureus (MRSA). In milk, 20% of the isolates were resistant to gentamycin, while 5.71% were MRSA. The prevalence of multidrug-resistant strains was higher in meat (16.67%) compared to milk (5.71%). The biofilm formation capability was assessed in most of the isolates (80% in milk and 100% in meat). Representative strains exhibiting different antibiotic resistance profiles were all negative for the enterotoxin genes sea, seb, sec, sed, and see, but harbored potential virulence factors such as hemolytic activity, high pigmentation, low cell envelop permeability, charged and hydrophobicity. Finally, the interaction of representative strains with human Caco-2 intestinal cell line showed that most strains had an adhesion capacity. Our findings reveal that foodborne isolates of S. aureus present a considerable threat to consumers due to their production of virulence factors, which enhance their pathogenicity and increase the likelihood of antibiotic treatment failures., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2025

3. Biofilm formation of the food spoiler Brochothrix thermosphacta on different industrial surface materials using a biofilm reactor.

Author

Gaillac A, Gourin C, Dubreil L, Briandet R, Prévost H, and Jaffrès E

Subjects

Stainless Steel, Biofilms, Food-Processing Industry, Brochothrix

Abstract

Brochothrix thermosphacta is considered as a major food spoiler bacteria. This study evaluates biofilm formation by B. thermosphacta CD337(2) - a strong biofilm producer strain - on three food industry materials (polycarbonate (PC), polystyrene (PS), and stainless steel (SS)). Biofilms were continuously grown under flow at 25 °C in BHI broth in a modified CDC biofilm reactor. Bacterial cells were enumerated by plate counting, and biofilm spatial organization was deciphered by combining confocal laser scanning microscopy and image analysis. The biofilms had the same growth kinetics on all three materials and reach 8log CFU/cm 2 as maximal concentration. Highly structured biofilms were observed on PC and PS, but less structured ones on SS. This difference was confirmed by structural quantification analysis using the image analysis software tool BiofilmQ. Biofilm on SS show less roughness, density, thickness and volume. The biofilm 3D structure seemed to be related to the coupon topography and roughness. The materials used in this study do not affect biofilm growth. However, their roughness and topography affect the biofilm architecture, which could influence biofilm behaviour., Competing Interests: Declaration of competing interest None, (Copyright © 2023. Published by Elsevier Ltd.)

Published

2024

4. Spatial organisation of Listeria monocytogenes and Escherichia coli O157:H7 cultivated in gel matrices.

Author

Saint Martin C, Darsonval M, Grégoire M, Caccia N, Midoux L, Berland S, Leroy S, Dubois-Brissonnet F, Desvaux M, and Briandet R

Subjects

Colony Count, Microbial, Food Microbiology, Escherichia coli O157 genetics, Listeria monocytogenes genetics

Abstract

The spatial organisation of bacterial pathogens in food matrices remains poorly understood, but is important in improving risk assessment and preventing infection of consumers by contaminated foodstuff. By combining confocal laser scanning microscopy with genetic fluorescent labelling of Listeria monocytogenes and Escherichia coli O157:H7, it was possible to investigate the spatial patterns of colonisation of both foodborne pathogens in gel matrices, alone or in combination, in various environmental conditions. Increasing low melting point agarose (LMPA) concentrations triggers the transition between a motile single-cell lifestyle to a sessile population spatially organised as microcolonies. The size, number and morphology of microcolonies were highly affected by supplementations in NaCl or lactic acid, two compounds frequently used in food products. Strikingly, single-cell motility was partially restored at higher LMPA concentration in the presence of lactic acid for Escherichia coli O157:H7 and in the presence of NaCl for Listeria monocytogenes. Co-culture of both species in the hydrogel affected pathogen colonisation features; Listeria monocytogenes was better able to colonise gel matrices containing lactic acid in the presence of Escherichia coli O157:H7. Altogether, this investigation provides insights into the spatial distribution and structural dynamics of bacterial pathogens in gel matrices. Potential impacts on food safety are discussed., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2022

5. Direct observation of the cell-wall remodeling in adhering Staphylococcus aureus 27217 : An AFM study supported by SEM and TEM.

Author

Boudjemaa R, Steenkeste K, Canette A, Briandet R, Fontaine-Aupart MP, and Marlière C

Abstract

We took benefit from Atomic Force Microscopy (AFM) in the force spectroscopy mode to describe the time evolution - over 24 h - of the surface nanotopography and mechanical properties of the strain Staphylococcus aureus 27217 from bacterial adhesion to the first stage of biofilm genesis. In addition, Transmission Electron Microscopy (TEM) and Scanning Electron Microscopy (SEM) experiments allowed identifying two types of self-adhering subpopulations (the so-called "bald" and "hairy" cells) and revealed changes in their relative populations with the bacterial culture age and the protocol of preparation. We indeed observed a dramatic evanescing of the "hairy" subpopulation for samples that underwent centrifugation and resuspension processes. When examined by AFM, the "hairy" cell surface resembled to a herringbone structure characterized by upper structural units with lateral dimensions of ∼70 nm and a high Young modulus value (∼2.3 MPa), a mean depth of the trough between them of ∼15 nm and a resulting roughness of ∼5 nm. By contrast, the "bald" cells appeared much softer (∼0.35 MPa) with a roughness one order of magnitude lower. We observed too the gradual detachment of the herringbone patterns from the "hairy" bacterial envelope of cell harvested from a 16 h old culture and their progressive accumulation between the bacteria in the form of globular clusters. The secretion of a soft extracellular polymeric substance was also identified that, in addition to the globular clusters, may contribute to the initiation of the biofilm spatial organization., (© 2019 The Authors.)

Published

2019

6. Biofilms of Lactobacillus plantarum and Lactobacillus fermentum: Effect on stress responses, antagonistic effects on pathogen growth and immunomodulatory properties.

Author

Aoudia N, Rieu A, Briandet R, Deschamps J, Chluba J, Jego G, Garrido C, and Guzzo J

Subjects

Animals, Bile microbiology, Culture Media chemistry, Escherichia coli physiology, Humans, Immunity, Innate, Immunomodulation, Interleukin-10 biosynthesis, Limosilactobacillus fermentum immunology, Lactobacillus plantarum immunology, Monocytes immunology, Mucus microbiology, Salmonella enterica physiology, Tumor Necrosis Factor-alpha biosynthesis, Zebrafish, Antibiosis, Biofilms growth & development, Limosilactobacillus fermentum growth & development, Limosilactobacillus fermentum physiology, Lactobacillus plantarum growth & development, Lactobacillus plantarum physiology, Probiotics

Abstract

Few studies have extensively investigated probiotic functions associated with biofilms. Here, we show that strains of Lactobacillus plantarum and Lactobacillus fermentum are able to grow as biofilm on abiotic surfaces, but the biomass density differs between strains. We performed microtiter plate biofilm assays under growth conditions mimicking to the gastrointestinal environment. Osmolarity and low concentrations of bile significantly enhanced Lactobacillus spatial organization. Two L. plantarum strains were able to form biofilms under high concentrations of bile and mucus. We used the agar well-diffusion method to show that supernatants from all Lactobacillus except the NA4 isolate produced food pathogen inhibitory molecules in biofilm. Moreover, TNF-α production by LPS-activated human monocytoid cells was suppressed by supernatants from Lactobacillus cultivated as biofilms but not by planktonic culture supernatants. However, only L. fermentum NA4 showed anti-inflammatory effects in zebrafish embryos fed with probiotic bacteria, as assessed by cytokine transcript level (TNF-α, IL-1β and IL-10). We conclude that the biofilm mode of life is associated with beneficial probiotic properties of lactobacilli, in a strain dependent manner. Those results suggest that characterization of isolate phenotype in the biofilm state could be additional valuable information for the selection of probiotic strains., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2016

7. Biofilm-associated persistence of food-borne pathogens.

Author

Bridier A, Sanchez-Vizuete P, Guilbaud M, Piard JC, Naïtali M, and Briandet R

Subjects

Bacteria isolation & purification, Food Microbiology, Humans, Bacterial Infections microbiology, Bacterial Physiological Phenomena, Biofilms, Foodborne Diseases microbiology

Abstract

Microbial life abounds on surfaces in both natural and industrial environments, one of which is the food industry. A solid substrate, water and some nutrients are sufficient to allow the construction of a microbial fortress, a so-called biofilm. Survival strategies developed by these surface-associated ecosystems are beginning to be deciphered in the context of rudimentary laboratory biofilms. Gelatinous organic matrices consisting of complex mixtures of self-produced biopolymers ensure the cohesion of these biological structures and contribute to their resistance and persistence. Moreover, far from being just simple three-dimensional assemblies of identical cells, biofilms are composed of heterogeneous sub-populations with distinctive behaviours that contribute to their global ecological success. In the clinical field, biofilm-associated infections (BAI) are known to trigger chronic infections that require dedicated therapies. A similar belief emerging in the food industry, where biofilm tolerance to environmental stresses, including cleaning and disinfection/sanitation, can result in the persistence of bacterial pathogens and the recurrent cross-contamination of food products. The present review focuses on the principal mechanisms involved in the formation of biofilms of food-borne pathogens, where biofilm behaviour is driven by its three-dimensional heterogeneity and by species interactions within these biostructures, and we look at some emergent control strategies., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2015

8. Biofilms 5 International Conference: meeting report.

Author

Bridier A, Chalabaev S, Ghigo JM, and Briandet R

Subjects

Humans, Biofilms, Biotechnology methods, Environmental Microbiology

Published

2013

9. Isolation and characterization of a psychrotolerant toxin producer, Bacillus weihenstephanensis, in liquid egg products.

Author

Baron F, Cochet MF, Grosset N, Madec MN, Briandet R, Dessaigne S, Chevalier S, Gautier M, and Jan S

Subjects

Animals, Bacillus classification, Bacillus growth & development, Bacillus metabolism, DNA, Bacterial chemistry, DNA, Bacterial genetics, Enterotoxins biosynthesis, Gene Amplification, Humans, Phylogeny, RNA, Ribosomal, 16S genetics, Sensitivity and Specificity, Sequence Analysis, DNA, Species Specificity, Temperature, Bacillus isolation & purification, Eggs microbiology, Food Contamination analysis, Food Microbiology, Polymerase Chain Reaction methods

Abstract

A psychrotolerant bacteria of the Bacillus cereus group was found responsible for the spoilage of whole liquid egg products. By sequencing a 16S rRNA region and performing a PCR amplification of specific 16S rRNA and cspA signatures, a Bacillus weihenstephanensis was identified. Characterization of this strain shows its ability to grow in defined medium as well as in whole liquid egg at refrigerated temperatures. The strain isolated possesses genes encoding for hemolysin BL, nonhemolytic enterotoxin, and B. cereus enterotoxins and produces enterotoxins with cytotoxic activity in whole liquid egg, even at refrigerated temperatures. The isolate exhibits a clear ability to stick and form biofilms on stainless steel, the most common material used in egg breaking factories, as well as on model hydrophilic (glass) and hydrophobic (polytetrafluoroethylene) materials. These findings show the necessity to monitor for Bacillus contamination in egg products that are often used in the composition of particularly susceptible finished products such as cream, dessert, dairy, meat, and seafood.

Published

2007

10. Influence of a nonfavorable environment, egg white, on resistance to heat and disinfectant, adhesion, and virulence of Salmonella enteritidis.

Author

Baron F, Briandet R, Lesne J, Humbert F, Ablain W, and Gautier M

Subjects

Adaptation, Physiological, Animals, Bacterial Adhesion, Chickens, Disinfectants pharmacology, Food Contamination, Mice, Models, Animal, Salmonella enteritidis pathogenicity, Virulence, Consumer Product Safety, Egg White microbiology, Hot Temperature, Salmonella enteritidis physiology

Abstract

Although liquid egg white may be subjected to limited heat treatment when it is used in the fabrication of various foodstuffs, pathogenic bacteria such Salmonella Enteritidis could persist in this environment. Liquid egg white is not a favorable medium for Salmonella growth because of its alkaline pH and iron deficiency and the presence of ovotransferrin. Microorganisms adapted to a nonfavorable environment are often more resistant to stresses than are their laboratory-cultured counterparts. The objective of this study was to determine whether Salmonella exposed to an environment mimicking egg white conditions exhibited modified behavior that could have an impact on food safety. A medium resembling egg white (filtrate of egg white with added ovotransferrin) was used as an adaptation treatment to mimic the stress imparted by the egg white environment. There were no changes in resistance to heat and disinfection, in stainless steel adhesion, or in the virulence of Salmonella Enteritidis cultivated in the egg white medium. Egg white conditions do not appear to make Salmonella more virulent or more difficult to inactivate.

Published

2004

11. Comparison of the cell surface properties and growth characteristics of Listeria monocytogenes and Listeria innocua.

Author

Meylheuc T, Giovannacci I, Briandet R, and Bellon-Fontaine MN

Subjects

Bacterial Adhesion, Food Microbiology, Kinetics, Listeria growth & development, Listeria monocytogenes growth & development, Temperature, Virulence, Listeria physiology, Listeria monocytogenes physiology

Abstract

Growth kinetics and physicochemical surface properties were compared for three Listeria strains with differing degrees of virulence: L. monocytogenes LO28; its isogenic, nonhemolytic mutant L. monocytogenes Bof415; and a nonvirulent species, L. innocua (strain Lin9). The influences of growth stage (mid-exponential phase, early stationary phase, and mid-stationary phase) and culture temperature (20 and 37 degrees C) were assessed by determining the electrical properties and the hydrophobic-hydrophilic and Lewis acid-base characteristics of the three strains. L. innocua, although taxonomically very similar to L. monocytogenes, exhibited physicochemical surface properties that differed significantly from those of L. monocytogenes LO28 and L. monocytogenes Bof415. Indeed, under our experimental conditions, L. innocua cells presented a more marked electronegative character (particularly when cultured at 20 degrees C), as well as greater variability in their Lewis acid-base characteristics as a function of temperature and growth stage. Furthermore, the growth kinetics of the three strains revealed the onset of a decay phase after 16 h of culture at 37 degrees C for the L monocytogenes Bof415 mutant. All of these results demonstrate that under our experimental conditions, the growth and/or physicochemical characteristics of the slightly pathogenic or nonpathogenic Listeria strains (Bof415 and Lin9) differed from those of the virulent strain (L. monocytogenes LO28). Consequently, the use of Listeria strains recognized as nonvirulent appeared to provide a model that was not fully suitable for simulating the bioadhesive behavior of the pathogenic strains involved in foodborne diseases.

Published

2002

12. Determination of the van der Waals, electron donor and electron acceptor surface tension components of static Gram-positive microbial biofilms.

Author

Briandet R, Herry J, and Bellon-Fontaine M

Abstract

A large number of studies have shown the influence of the physico-chemical properties of a surface on microbial adhesion phenomenon. In this study, we considered that the presence of a bacterial biofilm may be regarded as a "conditioning film" that may modify the physico-chemical characteristics of the support, and thus the adhesion capability of planktonic micro-organisms coming into contact with this substratum. In this context, we adapted a protocol for biofilm formation that allows, under our experimental conditions, contact angle measurements, the reference method to determine the energetic surface properties of a substratum. This made it possible to determine the van der Waals, electron acceptor and electron donor properties of static biofilms grown at 25 degrees C on stainless-steel slides with six Gram-positive bacteria isolated in dairy plants. A variance analysis indicated significant effects (P<0.05) of the bacterial strains and of the physiological state of the micro-organisms (planktonic or sessile) on the contact angles. To link the energetic properties of the six biofilms with direct adhesion experiments, we measured the affinity of fluorescent carboxylate-modified polystyrene beads for the different biofilm surfaces. The results correlated best with the electron-acceptor components of the biofilm surface energies, stressing the importance of Lewis acid-base interactions in adhesion mechanisms.

Published

2001

13. Effects of the growth procedure on the surface hydrophobicity of Listeria monocytogenes cells and their adhesion to stainless steel.

Author

Briandet R, Leriche V, Carpentier B, and Bellon-Fontaine MN

Subjects

Culture Media, Food Industry, Hydrogen-Ion Concentration, Lactic Acid pharmacology, Listeria monocytogenes growth & development, Solvents pharmacology, Temperature, Bacterial Adhesion drug effects, Listeria monocytogenes cytology, Stainless Steel

Abstract

The aim of this study was to examine the physicochemical surface properties and the ability to adhere to stainless steel of three strains of Listeria monocytogenes after different cultivation procedures. To this end, bacteria were cultivated at 37 degrees C after storage at two frequently used temperatures (4 degrees C or -80 degrees C) and were then transferred into the liquid medium (trypticase soy broth supplemented with 6 g liter(-1) of yeast extract, pH 7.3) between one and four times. In addition, the influence of supplementing the growth medium with lactic acid was explored, this organic acid being representative of both the dairy and cured meat industries. The hydrophobic/hydrophilic and electron-acceptor/electron-donor characteristics of the strains were evaluated by the microbial adhesion to solvents method. Using this technique, we recorded an increase in the hydrophobic properties of one strain stored at 4 degrees C, with an increasing number of transfers in the media (P < 0.05). Another plant-isolated strain appeared more hydrophobic and stuck better to stainless steel when cells were stored at 4 degrees C rather than at -80 degrees C. Preculturing L. monocytogenes in a lactic acid-supplemented medium increased the affinity of microbial cells to solvents and the bacterial attachment to stainless steel (P < 0.05).

Published

1999