Etude du rôle de la phospholipase A2 sécrétée de type IIA dans la mucoviscidose : modulation de son expression par Pseudomonas aeruginosa / Role of type IIA secretory phospholipase A2 in cystic fibrosis : regulation of its expression by Pseudomonas aeruginosa

Pernet, Erwan

18 September 2014

La phospholipase A2 sécrétée de type IIA (sPLA2-IIA) est une protéine possédant une activité antibactérienne très élevée envers les bactéries à Gram positif. La mucoviscidose (MV) est une maladie génétique résultant de la mutation du gène Cftr. L'altération de la fonction du CFTR dans les poumons favorise la colonisation par des pathogènes bactériens, dont les plus retrouvés, S. aureus et P. aeruginosa, colonisent les voies aériennes de manière séquentielle: S. aureus est principalement retrouvé chez les jeunes patients et P. aeruginosa chez les adultes. Les mécanismes impliqués dans ce changement de prévalence restent cependant mal connus. Dans ce travail, nous démontrons que l'expression de la sPLA2-IIA est plus importante dans les poumons de patients MV que dans les poumons de patients non MV et augmente avec l'âge des patients. La sPLA2-IIA présente dans les expectorations de patients MV est capable de tuer spécifiquement S. aureus. L'utilisation de modèles animaux nous a permis de démontrer sa spécificité d'action contre S. aureus et l'induction de son expression par P. aeruginosa contribuant à l'élimination de S. aureus des voies respiratoires. Enfin, nous avons identifié les cellules épithéliales comme une source majeure de sPLA2-IIA chez les patients MV. Dans ces cellules, P. aeruginosa induit l'expression de la sPLA2-IIA par un mécanisme dépendant de l'injection de la toxine ExoS et du facteur de transcription KLF2. L'ensemble de ces résultats indique i) que la sPLA2-IIA induite par P. aeruginosa, participe à l'élimination de S. aureus dans les voies aériennes des patients MV et ii) qu'une bactérie élimine une autre bactérie en utilisant la défense de l'hôte. / The type IIA secretory phospholipase A2 (sPLA2-IIA) is a host defense protein endowed with antibacterial activity, especially against Gram positive bacteria. Cystic fibrosis (CF) is a genetic disease due to mutations of Cftr gene. In the lungs, CFTR mutation favored bacterial colonization by bacterial pathogens, of which S. aureus and P. aeruginosa are the most isolated. These two bacterial species sequentially colonized airways of CF patients: S. aureus is predominant in young patients and P. aeruginosa in adults. But the mechanisms involved in this switch of bacterial prevalence are still unknown. In this work we showed that sPLA2-IIA levels were increased in lungs of CF patients compared to lungs of non-CF patients and that sPLA2-IIA levels increased with age of patients. sPLA2-IIA recovered from CF patients expectorations was active and killed specifically S. aureus. Using animal models of lung infection, we demonstrated the selectivity of sPLA2-IIA against S. aureus and that P. aeruginosa induced sPLA2-IIA expression, the latter contributed to S . aureus elimination from the airways. Finally, we identified epithelial cells as a major source of sPLA2-IIA in CF airways. In these cells, P. aeruginosa induced sPLA2-IIA expression through injection of ExoS toxin and activation of KLF2 transcription factor. Taken together, these results indicate that i) P. aeruginosa-induced sPLA2-IIA expression in CF airways participated to S. aureus elimination and ii) a bacteria eliminate another bacteria by manipulating host innate immunity.

Phospholipase

Mucoviscidose

Immunité

S. aureus

P. aeruginosa

Infection

Phospholipase

Cystic fibrosis

612

Evaluation of the utility of probiotics for the prevention of infections in a model of the skin

Prince, Tessa

January 2012

Probiotics have been defined as “live microorganisms which when administered in adequate amounts confer a health benefit on the host”. The beneficial effects of probiotics in the gut are well described and roles including immunomodulation and colonisation resistance have been documented. Recent reports suggest that topical use of probiotic bacteria may be an effective strategy to promote skin health or inhibit disease. Therefore, in this thesis the potential of probiotics to protect skin from pathogenic bacteria was assessed using primary keratinocytes as a model system, and the skin pathogen, Staphylococcus aureus. The ability of three probiotics, L. reuteri ATCC 55730, L. rhamnosus AC413 and L. salivarius UCC118 to inhibit the growth of S. aureus was tested using well-diffusion assays and spot on the lawn assays. All three probiotics inhibited the growth of S. aureus in well-diffusion assays, though this property was dependent on growth medium. Inhibition of S. aureus growth was principally via the production of organic acids rather than bacteriocin production. Next, to determine whether probiotics could protect keratinocytes, confluent normal human epidermal keratinocytes (NHEK) were infected with S. aureus (106 CFU/ml) in the presence or absence of the probiotic (108 CFU/ml). NHEK viability was measured using trypan blue exclusion assays. L. reuteri had a significant protective effect on NHEK when applied 1h prior to (P=0.0003), or simultaneously with S. aureus (P=0.002). L. reuteri did not however protect NHEK when applied 1h after S. aureus addition. There was no change in the number of viable S. aureus in cell culture assays. To determine whether the protective effect was due to the inhibition of adhesion, NHEK were either pre-exposed to the probiotic for 1h, simultaneously exposed to the probiotic and S. aureus for 1h, or exposed to the probiotic 30 minutes after S. aureus addition for 1h. Pre-exposure of NHEK to L. reuteri (exclusion) and simultaneous exposure to L. reuteri and S. aureus (competition) resulted in significantly less staphylococci adhering to NHEK (P=0.03 and P=0.008 respectively). However when L. reuteri was added after S. aureus (displacement), the number of adherent staphylococci was not reduced. The necessity of S. aureus adherence for the inactivation of NHEK was demonstrated using a α5β1 integrin blocking antibody. Finally, to compare the innate response of NHEK to probiotics with S. capitis and S. aureus, TLR-2, antimicrobial peptide (AMP) expression and IL-8 production were measured. TLR-2 protein (but not mRNA) expression was reduced in the presence of S. aureus (P=0.018). NHEK pre-exposed to S. capitis prior to S. aureus infection however, exhibited elevated TLR-2 protein and mRNA expression (P<0.0001 and P=0.009 respectively). NHEK pre-exposed to L. reuteri prior to S. aureus had no significant change in TLR-2 expression compared to untreated controls. ELISAs demonstrated that IL-8 production was significantly increased in NHEK pre-exposed to L. reuteri prior to S. aureus infection (P=0.0001). In conclusion, L. reuteri protected NHEK from the toxic effects of S. aureus at least partly through competitive exclusion of binding sites on NHEK. Finally, NHEK innate responses to probiotic bacteria were akin to those to the skin commensal, S. capitis. L. reuteri induced expression of a neutrophil chemoattractant, suggesting it could be of importance in priming the innate immune response against S. aureus infections. Taken together, these results suggest that probiotic bacteria could be used prophylactically within skin creams and soaps to prevent S. aureus colonisation and infection in skin.

616.9

Secreted Staphylococcus aureus virulence factors and their role in chronic wound development and persistence

Merriman, Joseph Alan

01 January 2015

Staphylococcus aureus is a gram-positive opportunistic pathogen responsible for more deaths every year than HIV/AIDS. Its formidable repertoire of virulence factors, ubiquitous nature, and ability to acquire antibiotic resistance quickly allow S. aureus to colonize and persist in nearly any body site if given the opportunity. S. aureus is the leading cause of many common and severe skin diseases, i.e. atopic dermatitis and surgical site infections, which can result in significant morbidity and mortality due to lack of available treatments and chronic non-healing nature of each infection. The human body is capable of producing many antimicrobial factors, such as defensins in the epidermis, in conjunction with providing a seamless barrier to many environmental threats, i.e. the skin, yet when given the opportunity, S. aureus can overtake these innate defenses, colonize, and cause disease. Despite S. aureus being a prominent organism in skin infections, little has been done to identify critical factors of S. aureus to cause skin infections. This document demonstrates the capacity of specific S. aureus virulence factors, superantigens and cytotoxins, to alter re-epithelialization and wound healing, as indicated by altered keratinocyte migration and proliferation. In an attempt to harness natural occurring host defenses, we have also identified and generated novel antimicrobial peptides capable of ablating toxin production independent of bacterial growth inhibition. Evidence presented should convince the reader that S. aureus exotoxin production is critical in perpetuating chronic wounds through local keratinocyte interaction. This suggests targeting production of these toxins to prevent cell toxicity and inflammatory responses, could allow the host to repair damaged tissue effectively.

publicabstract

atopic dermatitis

S. aureus

secreted factors

surgical site infection

therapeutic

Microbiology

Možnosti přežívání a množení patogenních a nepatogenních mikroorganismů v cukrářských výrobcích

Šrubařová, Monika

January 2018

This master thesis is focusing on analysis of two kinds of confectionary products: nutty and lemon balls. The samples were analysed and they determinate the numbers of total count of bacteria, number of S. aureus, yeast and microscopic fungi, coliforms bacteria and E. coli, detection of Salmonella spp. and Listeria monocytogenes. Furthermore, S. aureus (strain CCM 5974) was inoculated in the samples. These samples determinate the number of S. aureus and possibility of the production an enterotoxins of S. aureus. Staphylococcal enterotoxin was detected with the reverse passive latex agglutination (RPLA). The result of determination is that the numbers of total count of bacteria influence of storage period the number was reduced (p<0,05). Statistical differences were not found between the nutty and the lemon balls (p>0,05). During the first and the second analysis was found growth of yeast and microscopic fungi in the nutty balls. In the lemon balls was found a growth of yeast and microscopically fungi during the first analyses and in one sample only. Also the number of bacteria was reduced with S. aureus (p<0,05). There were not found any statistical differences between the nutty and the lemon balls (p>0,05). The number of E. coli was not found in any our samples. The coliform bacterium was found only with the first and the second analysis in the nutty samples. In the lemon samples the coliform bacterium was found only in the first analysis. During the first detection of Salmonella spp. were found four colonies of this bacterium in the nutty samples. Colonies of Listeria monocytogenes were not detected in any of these samples. Microbiological analysis of inoculated sample confirms that our confectionary products are not suitable for growth of pathogenic microorganism S. aureus. It also proves that between the nutty and the lemon samples were no statistical difference (p>0,05). During the inoculation was proven that S. aureus (CCM 5974) with concentration 1,2.105 CFU.g-1 is capable to form in products enterotoxins, which stays in products in contrast with S. aureus, after a certain period of time.

Studying the Genes of Staphylococcus aureus Associated with Acquired Antibiotic Resistance / Undersökning av gener kopplade till förvärvad antibiotikaresistens hos Staphylococcus aureus

Jansson, Tova

January 2021

No description available.

S. aureus

MRSA

apt

gdpP

pMAD

Biomedical Laboratory Science/Technology

Exploring the Cytotoxicity of RNA Isolated from Diverse Bacterial Pathogens

Zielinski, Riley E.

17 May 2023

No description available.

Microbiology

S. aureus

antibiotic resistance

pathogens

microbiology

RNA

pathogenic microbiology

staph infection

cytotoxicity

Embedded Passivated-electrode Insulator-based Dielectrophoresis

Shake, Tyler Joseph

26 March 2014

Pathogens in drinking water are the cause of over 1.5 million deaths around the world every year, mostly in developing countries. Practical, cheap, and effective tools for detection of these pathogens are critical to advance public health in many areas around the globe. Micro electro-mechanical systems (MEMS) are miniaturized structures that can be used for a variety of purposes, including, but not limited to, small scale sensors. Therefore, MEMS can be used in place of expensive laboratory equipment and offer a cheap and practical tool for pathogen detection. The presented work's research objective is to introduce a new technique called embedded passivated-electrode insulator-based dielectrophoresis (EπDEP) for preconcentration, separation, or enrichment of bioparticles, including living cells. This new method combines traditional electrode-based DEP and insulator-based DEP with the objective of enhancing the electric field strength and capture efficiency within the microfluidic channel while alleviating direct contact between the electrode and the fluid. The EπDEP chip contains embedded electrodes within the microfluidic channel covered by a thin passivation layer of only 4 μm. The channel was designed with two nonaligned vertical columns of insulated microposts (200 μm diameter, 50 μm spacing) located between the electrodes (600 μm wide, 600 μm horizontal spacing) to generate the nonuniform electric field lines to concentrate cells while maintaining steady flow in the channel. The performance of the chip was demonstrated using Gram-negative (Escherichia coli) and Gram-positive (Staphylococcus aureus) bacterial pathogens in aqueous media. Trapping efficiencies of 100% were obtained for both pathogens at an applied AC voltage of 50 V peak-to-peak and flow rates as high as 10 uL/min. / Master of Science

Dielectrophoresis (DEP)

Escherichia coli (E. coli)

Staphyloccus aureus (S. aureus)

Microfluidic

Microfabrication

Insulator-based dielectrophoresis (iDEP)

Insulator-based Dielectrophoresis for Bacterial Characterization and Trapping

Nakidde, Diana

31 March 2015

This work was focused on the characterization of microparticles with particular emphasis on waterborne pathogens which pose a great health risk to human lives. The goal of this study was to develop microfluidic systems for enhanced characterization and isolation of bioparticles. Insulator-based dielectrophoresis (iDEP) is a promising technique for analyzing, characterizing and isolation of microparticles based on their electrical properties. By employing insulator-based constrictions within the microchannel in combination with microelectrodes within the vicinity of the electrodes, dielectrophoretic performance is enhanced. In this study, three dimensional insulator-based dielectrophoresis devices are fabricated using our in-house developed 3D micromachining technique. This technology combines the benefits of electrode-based DEP, insulator-based DEP, and three dimensional insulating features with the goal of improving trapping efficiency of biological species at low applied signals and fostering wide frequency range operation of the microfluidic device. The dielectric properties of bacteria as well as submicron polystyrene beads are discussed and the impact of these results on the future development of iDEP microfluidic systems is explored. / Master of Science

Microelectromechanical Systems (MEMS)

Dielectrophoresis (DEP)

Microfabrication

Staphylococcus aureus (S. aureus)

Isulator-based Dielectrophoresis (iDEP)

Synthesis, Characterization, Critical Micelle Concentration and Biological Activity of two-Headed Amphiphiles

Actis, Marcelo

30 December 2008

In this project, we synthesized a new homologous series of five long-chain, two-headed amphiphiles [2CAm13, 2CAm15, 2CAm17, 2CAm19, 2CAm21; CH3(CH2)n-1CONHC(CH3)(CH2CH2COOH)2, n = 13, 15, 17, 19, 21]. The synthesis of the 2CAmn series was accomplished in four steps. The first step involves a reaction of nitroethane and two equivalents of tert-butyl acrylate to create the nitrodiester synthon [O2NC(CH3)(CH2CH2COOtBu)2] by successive Michael additions. The second step in the synthesis consists of a reduction of nitrodiester with H2 and Raney nickel to give the diesteramine [H2NC(CH3)(CH2CH2COOtBu)2]. The third step is the condensation of an acid chloride with diesteramine to give an alkanamido diester [2EAmn; CH3(CH2)n-1CONHC(CH3)(CH2CH2COOtBu)2, n = 13, 15, 17, 19, 21]. The final step is the removal of the tert-butyl protecting groups to give 2CAmn. Critical micelle concentration measurements were collected by the pendant drop method for measuring surface tension for a series of triethanolamine/2CAmn solutions to establish the concentration required for detergency. The CMCs for the 2CAmn series were found to decrease in value from 3.0 Ã 10â 2 M (2CAm13) to 1.7 Ã 10â 4 M (2CAm21) in a linear fashion [log CMC = (â 0.28 ± 0.01)n + (2.2 ± 0.1)]. The CMCs for the 2CAmn series falls in between the CMCs for three series of homologues three-headed amphiphiles (3CAmn, 3CCbn, 3CUrn) and the CMCs for fatty acids, with fatty acids having the lowest CMCs. Antibacterial activity (minimal inhibitory concentrations, MICs) for a series of homologous dendritic two-headed amphiphiles and three series of homologous, three-headed amphiphiles against Staphylococcus aureus and methicillin-resistent S. aureus (MRSA) were measured by broth microdilution to compare the effect of chain length and, hence, hydrophobicity. Inoculum density affected antibacterial activity of the 2CAmn series against both S. aureus and MRSA. MIC measurements at different cell densities showed that activity decreased with higher cell densities. For all four series, the MICs were relatively flat at low inoculum densities. This flat region defines the intrinsic activity, MIC0. The MIC0 results revealed that inoculum density, chain-length, and hydrophobicity all influenced antibacterial activity and that activity correlates strongly with clogp, an established measure of hydrophobicity. The most hydrophobic members from each homologous series exhibited antibacterial activity. The most active homologue of the 2CAmn series was 2CAm21 with MIC0 of 2.0 ± 1.0 and 3.2 ± 1.0 μM against S. aureus and MRSA, respectively. The CMCs and MIC0s of the two- and three-headed amphiphiles were compared for both S. aureus and MRSA to gauge the effect that micelles may have on activity. Amphiphile 2CAm19 has the largest ratio between CMC and MIC0 (CMC/MIC0 = 205) against S. aureus and 3CUr20 has the largest ratio (CMC/MIC0 = 339) against MRSA. These ratios suggest that micelle formation is not a mechanism of action for anti-Staphylococcal activity. / Master of Science

two-headed

di-carboxylato

amphiphile

critical micelle concentration

antimicrobial activity

MRSA

S. aureus

Synthesis, Characterization, Critical Micelle Concentration and Antimicrobial Activity of Two-headed Amphiphiles

Maisuria, Bhadreshkumar B.

15 September 2009

This project is about the synthesis of homologous series of two-headed, long-chain amphiphiles (the 2CCbn series, where n = 16, 18, 20, 22, 30, 5α-cholestan-3Ã -ol). The 2CCbn series was synthesized in five steps. The first step involves a reaction of nitroethane and two equivalents of tert-butyl acrylate to form nitrodiester by successive Michael addition reaction. The second step is the reduction of nitrodiester with Raney nickel to form aminodiester. The third step involves a reaction of aminodiester with di-tert-butyl dicarbonate [(Boc)2O] to form isocyanatediester. The fourth step is addition of iscocyanatediester with aliphatic alcohol to give alkyl carbamate diester (2ECbn) series. The fifth step is the removal of the tert-butyl protecting group to give the 2CCbn series. The critical micelle concentrations (CMC) were measured by the pyrene-based fluorescent probe method. The pyrene excited at 345 nm and fluoresces with maxima at 374 nm (I1) and 385 nm (I3). The stock solution and the dilution series for each amphiphiles were made in 0.9% triethanolamine solution. The CMCs were measured at two pH ~9.2 and 7.4. The CMCs were determined by plotting I1/I3 vs. concentrations. The CMCs were decreasing with increasing chain length. The CMCs for the 2CCbn series are lower than the 3CCbn series but higher than the fatty acids. The minimal inhibitory concentrations were measured against Staphylococcus aureus and methicillin-resistant Staphylococcus aureus. These strains were grown on BHIB+S with 5% triethanolamine. The MICs of the 2CCbn series amphiphiles were measured by using microtiter plate reader and by looking turbidity. The cutoff effect was found for the 2CCbn series. The MIC decreased up to C20 chain length and started rising for C22. The 2CCb18 (MICâ 2.2 µg/mL) of the 2CCbn series was the most effective amphiphile against S. aureus and MRSA. The CMC/MIC ratio was used to determine the safety of an amphiphile as a drug use. The amphiphile 2CCb18 has given the largest safety ratio (CMC/MIC = 273) against S. aureus and MRSA. It suggests that micelle formation is not a mechanism of action for anti-Staphylococcal activity. / Master of Science

homologous

two-headed

di-carboxylato

amphiphile

critical micelle concentration

minimal inhibitory concentration

S. aureus

MRSA