Effets des fluorures sur l'activité antimicrobienne des antibiotiques contre Staphylococcus aureus et Pseudomonas aeruginosa

L’émergence des souches bactériennes résistantes aux antibiotiques est un phénomène inquiétant, qui se répand à travers le monde. Staphylococcus aureus et Pseudomonas aeruginosa sont des bactéries pathogènes opportunistes multi résistantes qui peuvent causer plusieurs maladies. Cependant, ces bactéries deviennent difficiles à traiter avec des antibiotiques sans occasionner de toxicité. Alors pour trouver des solutions, c’est nécessaire de développer de nouvelles molécules afin de combattre les agents pathogènes résistants. Grâce à leur action pharmacologique, les fluorures exercent un certain effet antibactérien au niveau de l'émail des dents; donc, leur association aux antibiotiques pourrait bien a méliorer l’activité antimicrobienne. De ce fait, nous nous sommes proposés d’étudier les activités in vitro de la vancomycine (VAN), l’oxacilline (OXA), la ceftazidime (CFT) et la méropenème (MER) libre ou associée au fluorure de sodium (NaF) et fluorure de lithium (LiF) qui ont été évaluées sur des souches S.aureus et P.aeruginosa sensibles et résistantes, par la méthode de la microdilution en bouillon, déterminant leur concentration minimale inhibitrice (CMI), leur concentration minimale bactéricide (CMB), leur courbe cinétique (Time-Kill). Leur cytotoxicité sur les globules rouges humains, et leur stabilité à la température de 4°C et 22°C ont été étudiées. Les associations des antimicrobiens aux dérivés des fluorures ont montré une amélioration de l’effet des antibiotiques par la réduction des leurs concentrations et toxicité pour traiter correctement ces pathogènes résistants. Par conséquent, des antibiotiques associés aux dérivés de fluorure pourraient devenir une option de traitement contre des souches résistantes afin de diminuer la toxicité causée par de fortes doses des antibiotiques conventionnels.

Étude sur les fonctions in vivo des GEFs DOCK chez les mammifères

Dock1 (aussi nommé Dock180) est le membre prototypique de la famille Dock d’activateurs des petites GTPases de la famille Rho. Dock1 agit au sein d’une voie de signalisation conservée au cours de l’évolution et des études génétiques ont démontré que les orthologues de Dock1, myoblast city (mbc) chez la drosophile et Ced-5 chez le nématode, activent Rac dans divers processus biologiques. Notamment, mbc est un important régulateur de la fusion des myoblastes lors de la formation des fibres musculaires de drosophile. Mbc est aussi essentiel à la migration collective d’un groupe de cellules, appelées cellules de bordures, lors de leur migration dans la chambre de l’oeuf suite à l’activation de récepteurs à activité tyrosine kinase (RTK). La migration collective des cellules de bordures récapitule certains des événements observés lorsque des cellules tumorales envahissent le tissu environnant lors de la formation de métastases. Chez les mammifères, des études réalisées en lignées cellulaires suggèrent que Dock1 est aussi un régulateur du cytosquelette lors de la migration cellulaire. De plus, certaines études ont démontré que la voie Dock1/Rac agit en aval de RTKs lors de l’invasion de cellules de glioblastome. Néanmoins, les fonctions in vivo de Dock1 chez les mammifères demeurent méconnues et le but de cette thèse est d’identifier et de caractériser certaines de ses fonctions. Guidés par la fonction de mbc, nous démontrons dans l’objectif no 1 un rôle essentiel pour ce gène au cours du développement embryonnaire grâce à la caractérisation d’une souris Dock1 knock-out. Des défauts sévères de fusion des myoblastes sont observés en absence de l’expression de Dock1 et ils contribuent à la réduction de la masse musculaire des souris mutantes. De plus, nous avons constaté une contribution du gène Dock5, un membre de la famille Dock proche de Dock1, au développement des fibres musculaires. Dans l’objectif no 2, nous avons observé que des hauts niveaux d’expression de DOCK1 corrèlent avec un mauvais pronostic chez les patientes atteintes de cancer du sein possédant une forte expression du gène codant pour le RTK HER2. Une surexpression ou une amplification du locus codant pour le récepteur HER2 est associée à près de 20% des cas de cancer du sein. Les cancers de ces patientes développent fréquemment des métastases et sont associés à un mauvais pronostic. Des études biochimiques ont révélé que DOCK1 interagit avec le récepteur HER2 dans des cellules de cancer du sein. De plus, DOCK1 est essentiel à l’activation de RAC et à la migration cellulaire induite par HER2 dans ces cellules. L’utilisation d’un modèle de cancer du sein médié par HER2 chez la souris combiné avec l’inactivation du gène Dock1 dans les glandes mammaires, nous a permis d’identifier Dock1 et Rac comme de nouveaux effecteurs de la croissance tumorale et de la formation de métastases régulées par l’oncogène HER2. Nous concluons que l’utilisation de différents modèles de souris knock-out pour le gène Dock1 nous a permis d’identifier des fonctions clés de ce gène. Tout comme son orthologue mbc, Dock1 joue un rôle important lors du développement embryonnaire en régulant notamment la fusion des myoblastes. Nos études ont également contribué à démontrer un important degré de conservation des mécanismes moléculaires de fusion entre les espèces. De plus, DOCK1 agit en aval du RTK HER2 et son expression dans les cellules épithéliales de glandes mammaires contribue au développement tumoral et à la formation de métastases induits par cet oncogène.

Memory-based Embodied Cognition: a computational architecture

At its most fundamental, cognition as displayed by biological agents (such as humans) may be said to consist of the manipulation and utilisation of memory. Recent discussions in the field of cognitive robotics have emphasised the role of embodiment and the necessity of a value or motivation for autonomous behaviour. This work proposes a computational architecture – the Memory-Based Cognitive (MBC) architecture – based upon these considerations for the autonomous development of control of a simple mobile robot. This novel architecture will permit the exploration of theoretical issues in cognitive robotics and animal cognition. Furthermore, the biological inspiration of the architecture is anticipated to result in a mobile robot controller which displays adaptive behaviour in unknown environments.

Regulation of cell cycle and stress responses to hydrostatic pressure in fission yeast

We have investigated the cellular responses to hydrostatic pressure by using the fission yeast Schizosaccharomyces pombe as a model system. Exposure to sublethal levels of hydrostatic pressure resulted in G2 cell cycle delay. This delay resulted from Cdc2 tyrosine-15 (Y-15) phosphorylation, and it was abrogated by simultaneous disruption of the Cdc2 kinase regulators Cdc25 and Wee1. However, cell cycle delay was independent of the DNA damage, cytokinesis, and cell size checkpoints, suggesting a novel mechanism of Cdc2-Y15 phosphorylation in response to hydrostatic pressure. Spc1/Sty1 mitogen-activated protein (MAP) kinase, a conserved member of the eukaryotic stress-activated p38, mitogen-activated protein (MAP) kinase family, was rapidly activated after pressure stress, and it was required for cell cycle recovery under these conditions, in part through promoting polo kinase (Plo1) phosphorylation on serine 402. Moreover, the Spc1 MAP kinase pathway played a key role in maintaining cell viability under hydrostatic pressure stress through the bZip transcription factor, Atf1. Further analysis revealed that prestressing cells with heat increased barotolerance, suggesting adaptational cross-talk between these stress responses. These findings provide new insight into eukaryotic homeostasis after exposure to pressure stress.

Towards a developmental memory-based and embodied cognitive architecture

A novel memory-based embodied cognitive architecture is introduced – the MBC architecture. It is founded upon neuropsychological theory, and may be applied to investigating the interplay of embodiment, autonomy, and environmental interaction as related to the development of cognition.

Detection and molecular characterisation of Pyrenopeziza brassicae isolates resistant to methyl benzimidazole carbamates

BACKGROUND Methyl benzimidazole carbamate (MBC) fungicides are used to control the oilseed rape pathogen Pyrenopeziza brassicae. Resistance to MBCs has been reported in P. brassicae, but the molecular mechanism(s) associated with reductions in sensitivity have not been verified in this species. Elucidation of the genetic changes responsible for resistance, hypothesised to be target-site mutations in β-tubulin, will enable resistance diagnostics and thereby inform resistance management strategies. RESULTS P. brassicae isolates were classified as sensitive, moderately resistant or resistant to MBCs. Crossing P. brassicae isolates of different MBC sensitivities indicated that resistance was conferred by a single gene. The MBC-target encoding gene β-tubulin was cloned and sequenced. Reduced MBC sensitivity of field isolates correlated with β-tubulin amino acid substitutions L240F and E198A. The highest level of MBC resistance was measured for isolates carrying E198A. Negative cross-resistance between MBCs and the fungicides diethofencarb and zoxamide was only measured in E198A isolates. PCR-RFLP was used to screen isolates for the presence of L240F and E198A. The substitutions E198G and F200Y were also detected in DNA samples from P. brassicae populations after cloning and sequencing of PCR products. The frequencies of L240F and E198A in different P. brassicae populations were quantified by pyrosequencing. There were no differences in the frequencies of these alleles between P. brassicae populations sampled from different locations or after fungicide treatment regimes. CONCLUSIONS The molecular mechanisms affecting sensitivity to MBCs in P. brassicae have been identified. Pyrosequencing assays are a powerful tool for quantifying fungicide-resistant alleles in pathogen populations.

Moisture can be the dominant environmental parameter governing cadaver decomposition in soil

Forensic taphonomy involves the use of decomposition to estimate postmortem interval (PMI) or locate clandestine graves. Yet, cadaver decomposition remains poorly understood, particularly following burial in soil. Presently, we do not know how most edaphic and environmental parameters, including soil moisture, influence the breakdown of cadavers following burial and alter the processes that are used to estimate PMI and locate clandestine graves. To address this, we buried juvenile rat (Rattus rattus) cadavers (∼18 g wet weight) in three contrasting soils from tropical savanna ecosystems located in Pallarenda (sand), Wambiana (medium clay), or Yabulu (loamy sand), Queensland, Australia. These soils were sieved (2 mm), weighed (500 g dry weight), calibrated to a matric potential of -0.01 megapascals (MPa), -0.05 MPa, or -0.3 MPa (wettest to driest) and incubated at 22 °C. Measurements of cadaver decomposition included cadaver mass loss, carbon dioxide-carbon (CO2-C) evolution, microbial biomass carbon (MBC), protease activity, phosphodiesterase activity, ninhydrin-reactive nitrogen (NRN) and soil pH. Cadaver burial resulted in a significant increase in CO2-C evolution, MBC, enzyme activities, NRN and soil pH. Cadaver decomposition in loamy sand and sandy soil was greater at lower matric potentials (wetter soil). However, optimal matric potential for cadaver decomposition in medium clay was exceeded, which resulted in a slower rate of cadaver decomposition in the wettest soil. Slower cadaver decomposition was also observed at high matric potential (-0.3 MPa). Furthermore, wet sandy soil was associated with greater cadaver decomposition than wet fine-textured soil. We conclude that gravesoil moisture content can modify the relationship between temperature and cadaver decomposition and that soil microorganisms can play a significant role in cadaver breakdown. We also conclude that soil NRN is a more reliable indicator of gravesoil than soil pH.

Temperature affects microbial decomposition of cadavers (Rattus rattus) in contrasting soils

The ecology of soils associated with dead mammals (i.e. cadavers) is poorly understood. Although temperature and soil type are well known to influence the decomposition of other organic resource patches, the effect of these variables on the degradation of cadavers in soil has received little experimental investigation. To address this, cadavers of juvenile rats (Rattus rattus) were buried in one of three contrasting soils (Sodosol, Rudosol, and Vertosol) from tropical savanna ecosystems in Queensland, Australia and incubated at 29 °C, 22 °C, or 15 °C in a laboratory setting. Cadavers and soils were destructively sampled at intervals of 7 days over an incubation period of 28 days. Measurements of decomposition included cadaver mass loss, carbon dioxide–carbon (CO2–C) evolution, microbial biomass carbon (MBC), protease activity, phosphodiesterase activity, and soil pH, which were all significantly positively affected by cadaver burial. A temperature effect was observed where peaks or differences in decomposition that at occurred at higher temperature would occur at later sample periods at lower temperature. Soil type also had an important effect on some measured parameters. These findings have important implications for a largely unexplored area of soil ecology and nutrient cycling, which are significant for forensic science, cemetery planning and livestock carcass disposal.

Anti-Helicobacter pylori activity and oxidative burst inhibition by the naphthoquinone 5-methoxy-3,4-dehydroxanthomegnin from Paepalanthus latipes

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Operational parameters of soybean seeding in santa fe system

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Antimicrobial and Cytotoxic Activity of Fruit Extract from Syzygium cumini (L.) Skeels

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Desempenho agronômico da cultura do milho e espécies forrageiras em sistema de Integração Lavoura-Pecuária no Cerrado

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Alterações microbiológicas, de fertilidade e de produtividade do arroz de terras altas em diferentes manejos de solo e água

In Brazil, the upland rice Culture system is predominant, but its water supply depends of precipitation and its distribution. Sol-lie practices or disturbances on soil conditions may cause alterations that call be detected by microorganisms, which are quite sensitive. This experiment was developed to study microbiological alterations (microbial biomass carbon (MBC), released CO2 (C-CO2), metabolic quotient (qCO(2)) and mycorrhization), as well as alterations in soil fertility and productivity of upland rice, cultivated under different soil and water managements. Cultivar BRS Talento was used in the experiment. The experimental design was a completely randomized block design, with four replications, using three soil managements: no-tillage (NT), heavy disk + leveling disk harrowing (HL), and chisel plowing + leveling disk harrowing (CL), plus three water managements: no irrigation (WD0); water depth 1 (WD1), with irrigation at the reproductive and maturation periods; and water depth 2 (WD2), with irrigation throughout the rice cycle. Autochthones arbuscular mycorrhizal fungi proved to be sensitive to soil and water management. The NT presented the highest values for MO, Ca, SB and V% and the lowest for H+A1. This management, together with irrigation at the reproductive and maturation periods of BRS Talento cultivar, promoted goods results for crop yield and microbiology characteristics.

Implante de condrócitos homólogos em defeitos osteocondrais de cães: padronização da técnica e avaliação histopatológica

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)