Réponse des cellules épithéliales pulmonaires à l'exposition au perflurocarbone dans le contexte des applications de la ventilation liquide totale / Epithelial lung cell response to perfluorocarbon exposure in the context of total liquid ventilation applications.

Andre Dias, Sofia

27 March 2017

Au cours de la ventilation liquide totale (VLT), les cellules pulmonaires sont exposées à des perfluorocarbones (PFC) dont les propriétés physiques diffèrent fortement du milieu standard de culture cellulaire (DMEM) et encore plus des propriétés de l'air. Dans cette thèse nous étudions les effets d’une exposition au PFC sur la réponse des cellules épithéliales pulmonaires, en effectuant une étude approfondie des propriétés structurales, mécaniques et fonctionnelles. La réponse des cellules A549 (alvéolaire), HBE (bronchique) et AM (Macrophage alvéolaire) exposées au PFC est étudiée par comparaison au DMEM. Les variations de la structure de F-actine, de la densité d'adhésion focale et de la distribution du glycocalyx sont évaluées par fluorescence. Les changements de propriétés mécaniques et de paramètres d’adhésion sont mesurés par la Magnétocymétrie (MTC) étendue à l’analyse multiéchelle. La mécanique cellulaire est caractérisée par deux modèles microrhéologiques reflétant deux types de comportement possibles du cytosquelette (CSK). L'adhésion à la matrice cellulaire est analysée par un modèle stochastique de dé-adhésion, décrivant la composante non-réversible de la réponse cellulaire. Les rôles fondamentaux de la structure de F-actine et de la couche de glycocalyx sont respectivement évalués par dépolymérisation de F-actine et en dégradant le glycocalyx. Les résultats montrent que l'exposition au PFC induit un remodelage de la structure de F-actine, un affaiblissement du CSK et une diminution de l'adhésion. Ces résultats démontrent que le PFC déclenche une réponse particulière des cellules épithéliales caractérisée par une diminution de la tension intracellulaire, l'affaiblissement de l'adhésion et la redistribution du glycocalyx. L’origine de cette adaptation cellulaire est physique et très probablement reliée à l’augmentation de l'énergie interfaciale associée à la basse tension de surface d’un PFC chimiquement apolaire. La faible tension de surface du PFC est également responsable d'une augmentation de la compliance pulmonaire pendant VLT et a des impacts profonds dans les paramètres respiratoires, parallèlement à la modification de la réponse cellulaire. / During Total Liquid Ventilation (TLV), lung cells are exposed to perfluorocarbon (PFC) whose physical properties highly differ from aqueous medium (DMEM) standardly used for cell culture and farther air properties. In this thesis, we study the effects of PFC exposure on the response of pulmonary epithelial cell by performing a thorough assessment of their structural, mechanical and functional properties. The response of A549 cells (alveolar), HBE (bronchial), and AM (alveolar macrophages) exposed to PFC is studied by comparison to DMEM. Changes in F-actin structure, focal adhesion size and density and glycocalyx expression are evaluated by fluorescence. Changes in cell mechanics and adhesion parameters are measured by a multiscale Magnetic Twisting Cytometry (MTC) method. Cell mechanics is analyzed by two microrheological models reflecting two possible cytoskeleton features. Cell-matrix adhesion is analyzed by a stochastic multibond de-adhesion model describing the non-reversible component of the cell response by MTC. The key roles of F-actin structure and glycocalyx layer are established by respectively depolymerising F-actin and degrading glycocalyx. Results show that PFC exposure induces F-actin remodelling, cytoskeleton softening and adhesion weakening. They demonstrate that PFC triggers an epithelial cell response which is characterized by decay in intracellular tension, adhesion weakening and glycocalyx redistribution. The origin of this cellular adaptations is physical and most likely related to the increase in interfacial energy, associated to the low surface tension of the non polar perflurorocarbon, The low surface tension of PFC is also responsible for an increase in lung compliance during TLV and has deep impacts during ventilation parallel to the modification of cell response.

Mécanique cellulaire

Ventilation Liquide Totale

Adhésion cellulaire

Perfluorocarbon

Contraintes mécanique

Mechanotransduction

Cell Mechanics

Total Liquid Ventilation

Cell adhesion

Perfluorocarbon

Mechanical stress

Mechanotransduction

610

Contribution à l'étude biochimique de SHIP2 dans la signalisation intracellulaire: son interaction avec la vinexine et son rôle dans l'adhérence cellulaire

Paternotte, Nathalie

20 December 2005

Le métabolisme des phosphoinositides constitue un processus crucial parmi les systèmes permettant la terminaison de la transmission intracellulaire d’un stimulus extracellulaire. En effet, l’une de principales voies de signalisation intracellulaire engendrée en réponse à la liaison d’hormones ou de facteurs de croissance sur leurs récepteurs spécifiques fait intervenir la phosphorylation du PtdIns(4,5)P2 en PtdIns(3,4,5)P3 par une PI 3-kinase. Les enzymes responsables du métabolisme de ce second messager sont donc essentielles à la fonction normale de la cellule. L’ADNc de la 5-phosphatase SHIP2 a été cloné dans notre laboratoire. Cette enzyme présente au sein de sa structure primaire, en plus d’un domaine catalytique 5-phosphatase, un grand nombre de motifs permettant des interactions spécifiques avec d’autres protéines :un domaine SH2 N-terminal, des séquences riches en prolines, un motif NPXY et un domaine SAM. <p>SHIP2 joue un rôle de régulateur négatif dans la voie PKB et MAPK in vitro dans plusieurs modèles cellulaires. De plus, l’affinité de SHIP2 pour le cytosquelette a été mise en évidence notamment dans les plaquettes sanguines.<p> Notre travail de thèse s’intègre dans le cadre de l’étude biochimique de SHIP2 et plus particulièrement dans la recherche de ses partenaires protéiques. La Vinexine, protéine du cytosquelette impliquée dans l’adhérence cellulaire, avait été identifiée comme une protéine interagissant avec SHIP2 par la technique du double hybride. Nous avons confirmé cette association par des expériences d’immunoprécipitation en système transfecté (cellules COS-7) ainsi qu’en système natif (cellules HeLa et MEF). Nous avons montré que cette interaction n’était ni modulée par une stimulation à l’EGF (dans des cellules COS-7) ni par le sérum (dans des cellules MEF). Nous avons démontré une colocalisation de SHIP2 avec la Vinexine &61537; à la périphérie des cellules COS-7 stimulées à l’EGF. Par la suite, nous nous sommes intéressés au rôle potentiel de cette interaction dans l’adhérence cellulaire. Nous avons montré que la surexpression de SHIP2 ou de la Vinexine &61537; augmente l’adhérence des cellules COS-7 sur un substrat de collagène I. L’adhérence à ce même substrat est diminuée dans les cellules MEF issues des souris déficientes en SHIP2 comparées à des cellules contrôles SHIP2 +/+. De plus, il apparaît que la partie carboxy-terminale de SHIP2 ainsi que son activité catalytique sont importantes pour l’adhérence des cellules au substrat.<p>Ces résultats suggèrent un rôle important de SHIP2 dans l’adhérence cellulaire et l’organisation du cytosquelette d’actine faisant intervenir un mécanisme probable de déphosphorylation du PtdInsP3.<p> / Doctorat en sciences, Spécialisation biologie moléculaire / info:eu-repo/semantics/nonPublished

Sciences exactes et naturelles

Chimie

Phosphoinositides

Cell interaction

Cell adhesion

Cytoskeletal proteins

Phospho-inositides

Cellules -- Interaction

Cellules -- Adhésivité

Protéines du cytosquelette

SHIP2

signalisation cellulaire

adhérence

Complexation de l'ADN par des composés organoruthénés et étude de l'adhésion cellulaire sur des substrats mous / Complexation of the DNA with organoruthened compounds and study of cell adhesion on soft substrates

Despax, Stéphane

13 June 2014

Le domaine général de cette thèse est l’étude des procédés physico-chimiques impliqués dans le développement du cancer et/ou leurs thérapies. La première partie est consacrée à la caractérisation des interactions mises en jeu lors de l’association de complexes du ruthénium avec la macromolécule d’ADN. La caractérisation expérimentale de cet équilibre est faite par des manipulations d’absorption UV-visible et de dichroïsme circulaire. Une méthode d’analyse originale est utilisée pour arriver à mettre en évidence la présence simultanée de deux modes d’associations. Un modèle à deux équilibres traduisant convenablement ces observations et permettant d’identifier les deux modes d’association est alors proposé. La deuxième partie constitue un travail préliminaire à l’étude des mouvements cellulaires sur un substrat mou. Des caractérisations du comportement des cellules en fonction de la rigidité de leur substrat a pu être mis en évidence et donnent des résultats similaires à la littérature. / The general area of this thesis is the study of physico-chemical processes involved in can- cer development and / or their therapies. The first part is devoted to the characterization of the interactions involved in the association of ruthenium complexes with the DNA macromolecule. Experimental characterization of this equilibrium is made by UV-visible absorption and circular dichroism experiments. An original method of analysis is used to highlight the simultaneous presence of two association modes. A two equilibria model fits correctly the experimental data and permits the identification of these two association modes. The second part is a preliminar work about cell movements on a soft substrate. Characterizations of cell behavior depending on the substrate rigidity has been highlighted and give similar results in the literature.

Complexe organométallique du ruthénium

Adn

Adhésion cellulaire

Dichroïsme circulaire

Cancer

Ruthenium derived compounds

Dna

Cell adhesion

Circular dichroism

Uv visible absorption spectrophotometry

Cancer

541.34

572.8

Ghrelin and atherosclerosis:human, experimental animal and cell culture studies

Kellokoski, E. (Eija)

20 October 2009

Abstract Atherosclerosis is the major cause of cardiovascular diseases and the leading cause of death globally. Atherosclerosis is a complex, chronic disease characterized by lipid accumulation and inflammation within the intima layer of vessel wall. Novel biomarkers and therapeutics are still being sought to provide both better diagnosis and treatment. Ghrelin represents an attractive target for studies into atherosclerosis. Ghrelin is a gastric peptide hormone, which has multiple functions, including regulation of appetite and energy metabolism. Emerging evidence suggests that it may also have a role in the cardiovascular and immune systems. The aim of the present study was to explore the role of ghrelin in atherosclerosis. The specific aims were 1) to investigate the association between the plasma ghrelin level and early atherosclerosis as determined by carotid artery intima media thickness (IMT) in a large (n =  1024) cross-sectional population-based study of middle-aged subjects, 2) to measure the associations between plasma ghrelin levels and already established risk factors of atherosclerosis in human subjects, 3) to assess the effects of ghrelin on atherogenesis in vitro by analyzing monocyte adhesion to endothelial cells, oxidized low density lipoprotein (LDL) binding and acetylated LDL uptake using macrophages, and 4) to study the influence of ghrelin on atherosclerosis using ghrelin vaccination in a mouse model of atherosclerosis. Plasma total ghrelin levels were positively associated with carotid IMT in male subjects. Association studies demonstrated plasma ghrelin levels to be negatively associated with total and LDL cholesterol, and triglyceride concentrations as well as with body mass index (BMI), and positively assocated with high density lipoprotein (HDL) cholesterol concentration in postmenopausal women and in a population-based study. In addition, estrogen increased plasma acylated ghrelin levels in postmenopausal women. Cell culture studies demonstrated that ghrelin could increase the binding of oxidized LDL and monocytes to endothelial cells. Interestingly, when endothelial cells were stimulated with tumor necrosis factor α (TNFα), then ghrelin prevented monocyte adhesion. The study with LDL receptor knockout mice, revealed that ghrelin vaccination could increase plasma ghrelin levels but had no effects on the development of atherosclerosis. However, the plasma MCP-1 level decreased in mice immunized with ghrelin vaccine. In conclusion, these studies suggest that ghrelin has modulatory functions in the vascular system and atherogenesis though the effect may not be as dominant as that of the known traditional risk factors. Whether this effect of ghrelin is positive or negative in atherogenesis will be clarified in further studies. / Tiivistelmä Sydän- ja verisuonitaudit ovat suurin kuolinsyy niin Suomessa kuin useimmissa länsimaissakin. Näiden sairauksien taustalla on yleensä valtimonkovettumatauti eli ateroskleroosi, joka voi kliinisesti ilmentyä mm. sepelvaltimotautina, aivoveritulppana ja laskimotautina. Ateroskleroosissa tulehdussoluja ja kolesterolia kertyy verisuonen seinämään muodostaen ahtauman eli ateroomaplakin valtimoon. Valtimonkovettumataudin riskitekijäitä tunnetaan jo hyvin, mutta uusia tautia ennustavia merkkiaineita sekä hoitomuotoja tarvitaan yhä. Greliini on mahalaukusta eritettävä peptidihormoni, joka osallistuu elimistössä mm. ruokahalun, energiametabolian, tulehdustekijöiden sekä sydän- ja verenkiertoelimistön toiminnan säätelyyn. Tämän työn tavoitteena oli tutkia greliinin yhteyttä ihmisen valtimonkovettumatautiin. Tutkimus toteutettiin käyttämällä kahta eri potilasaineistoa, soluviljelykokeita sekä valtimonkovettumataudin hiirimallia. Laajassa väestöpohjaisessa potilasaineistossa tutkittiin veren greliinipitoisuuden yhteyttä kaulavaltimon seinämän paksuuteen, jota pidetään valtimonkovettumista kuvaavana tekijänä. Veren greliinipitoisuuden yhteyttä valtimonkovettumataudin tunnettuihin riskitekijöihin tutkittiin myös laajassa potilasaineistossa sekä vaihdevuosi-ikäisillä naisilla, joille annettiin estrogeenikorvaushoitoa. Solukokeilla selvitettiin greliinin vaikutusta tärkeisiin valtimonkovettumataudin syntyvaiheisiin käyttäen monosyytti-, endoteelisolu- sekä makrofaagi-soluviljelmiä. Greliinin vaikutusta ateroskleroosiin in vivo selvitettiin rokottamalla LDL-reseptoripuutteiset hiiret greliini-rokotteella. Tutkimuksessa havaittiin yhteys veren korkean greliinipitoisuuden ja kaulavaltimon seinämän paksuuden välillä miehillä laajassa potilasaineistossa (n =  1024). Tulosta tukivat soluilla tehdyt kokeet, joissa greliini lisäsi hapettuneen LDL:n sitoutumista makrofaageihin sekä monosyyttien tarttumista endoteelisolujen pinnalle. Greliinin vaikutukset monosyyttien tarttumiseen endoteelisolujen pinnalle olivat päinvastaiset silloin, kun endoteelisolut käsiteltiin tulehdusta stimuloivalla tekijällä. Matalat veren greliinipitoisuudet olivat myös yhteydessä korkeisiin LDL-kolesteroli- ja triglyseriditasoihin sekä painoindeksiin ja matalaan HDL-kolesterolitasoon potilasaineistoissa. Estrogeeni nosti veren greliinipitoisuutta vaihdevuosi-ikäisillä naisilla. Greliinirokote ei vaikuttanut ateroskleroosin kehittymiseen hiirimallissa. Tutkimustulosten perusteella greliinillä näyttäisi osallistuvan valtimonkovettumataudin kehitykseen, vaikkakin sen vaikutus on pienempi kuin aiemmin tunnetuilla taudin riskitekijöillä.

atherosclerosis

cell adhesion molecules

endothelial cells

estrogen replacement therapy

ghrelin

macrophages

mouse model of atherosclerosis

obesity

vaccination

adheesiomolekyylit

ateroskleroosi

eläinmalli

endoteelisolut

estrogeenihoito

greliini

kaulavaltimot

lihavuus

rokote

syöjäsolut

Wnt-11 signalling, its role in cardiogenesis and identification of Wnt/β-catenin pathway target genes

Railo, A. (Antti)

30 March 2010

Abstract Wnt genes encode secreted signalling molecules that control embryonic development including organogenesis, while dysregulated Wnt signalling is connected to many diseases such as cancer. Specifically, Wnts control a number of cellular processes such as proliferation, adhesion, differentiation and aging. Many Wnt proteins activate the canonical β-catenin signalling pathway that regulates transcription of a still poorly characterized set of target genes. Wnts also transduce their signaling in cells via β-catenin-independent “non-canonical” pathways, which are not well understood. In this study, Wnt-11 signalling mechanisms in a mammalian model cell line and roles of Wnt-11 in heart development were analyzed in detail. In addition the aim was to identify new Wnt target genes by direct chromatin immunoprecipitation and Affymetrix GeneChip assays in the model cells exposed to Wnt-3a. Our studies reveal that Wnt-11 signalling coordinates the activity of key cell signalling pathways, namely the canonical Wnt/β-catenin, the JNK/AP-1, the NF-κB and PI3K/Akt pathways in the CHO cells. Analysis of the Wnt-11-deficient embryos revealed a crucial role in heart organogenesis. Wnt-11 signalling coordinates cell interactions during assembly of the myocardial wall and Wnt-11 localizes the expression of N-cadherin and β-catenin to specific cellular domains in the embryonic ventricular cardiomyocytes. Collectively these studies reveal that the mammalian Wnt-11 behaves as a non-canonical Wnt and that it is a critical factor in the coordination of heart development. Specifically, it controls components of the cell adhesion machinery. Analysis of the Wnt target genes revealed a highly context-dependent profile in the Wnt-regulated genes. Several new putative target genes were discovered. Out of the candidate Wnt target genes, Disabled-2 was identified as a potential new direct target for Wnt signalling.

AP-1

JNK

N-cadherin

NF-κB

TCF

Wnt signalling

Wnt-11

cardiogenesis

cell adhesion

cell viability

chromatin immunoprecipitation

target gene

β-catenin

Contrôle de AP-1 sur le trafic de E-Cadhérine chez Drosophila melanogaster / AP-1 dependent E-Cadherin trafficking in Drosophila melanogaster

Loyer, Nicolas

16 October 2014

L'intérieur des cellules eucaryotes est compartimenté en organites qui échangent des lipides et protéines entre eux et avec la membrane plasmique via le trafic vésiculaire. Dans les cellules polarisées comme les cellules épithéliales, dont la membrane plasmique est divisée en un pôle apical et un pôle basolatéral séparés par une ceinture de jonctions, le trafic vésiculaire est contrôlé par des systèmes de tri polarisé, permettant d'adresser les protéines appropriées au domaine membranaire approprié. Dans ces cellules épithéliales, le complexe adaptateur AP-1 contrôle l'adressage au pôle basolatéral et le trafic de la molécule d'adhésion E-Cadhérine, une protéine transmembranaire des jonctions d'adhérence. Il a de plus été démontré dans les cellules intestinales du nématode C. elegans et des mammifères qu'AP-1 est nécessaire au maintien de la polarité épithélial. J'ai étudié ces fonctions d'AP-1 chez l'organisme modèle Drosophila melanogaster. J'ai montré qu'AP-1 contrôle aussi le trafic de E-Cadhérine chez la Drosophile mais n'est pas requis pour la maintenance de la polarité de l'épithélium folliculaire, un épithélium entourant le cyste germinal femelle de 16 cellules au cours de l'ovogénèse chez la Drosophile. Ces expériences dans ce tissu m'ont amené à découvrir une nouvelle fonction de E-Cadhérine dans le cyste germinal. Les cellules de ce cyste sont connectées entre elles par des ponts cytoplasmiques stabilisés à l'issue de cytocinèses incomplètes. J'ai montré que les cellules du cyste mutantes pour AP-1 présentent un phénotype de multinucléation dû au décrochage des ponts cytoplasmiques. Ce phénotype corrèle avec un défaut d'adressage de E-Cadhérine dépendant d'AP-1 à la membrane plasmique entourant ces ponts, via les endosomes de recyclage. E-Cadhérine y est nécessaire pour leur ancrage à la membrane plasmique, un rôle qui avait été jusque-Là masqué par l'expression ectopique compensatoire de N-Cadhérine dans les mutants E-Cadhérine. Ce rôle d'E-Cadhérine passe par l'organisation de protrusions membranaires présentant l'aspect et contenant certains marqueurs protéiques des microvillosités observées au pôle apical des cellules épithéliales. / Eukaryotic cells are compartmentalized in organelles. Lipidic and proteic exchanges between organelles and the plasma membrane are controlled by vesicular trafficking. In polarised cells such as epithelial cells, whose plasma membrane is divided into an apical and a basolateral pole separated by a junctional belt, appropriate targeting of proteins to appropriate poles relies on polarised sorting mechanisms controlling vesicular trafficking. In these cells, the clathrin adaptor complex AP-1 controls basolateral targeting and trafficking of the adhesion molecule E-Cadherin, a transmembrane adherens junctions protein. AP-1 is furthermore necessary for epithelial polarity maintenance in intestinal epithelial cells in the nematode C. elegans and mammals. I studied AP-1 functions in the model organism Drosophila melanogaster. I showed AP-1 also controls E-Cadherin trafficking in Drosophila but is not required for polarity maintenance in follicular cells, an epithelium surrounding the female germline cyst during oogenesis. Experiments in this tissue led me to discover a new E-Cadherin function in the germline cyst. Germline cyst cells are interconnected by cytoplasmic bridges stabilised after incomplete cytokinesis. I showed AP-1 mutant cyst cells were multinucleated due to a detachment of cytoplasmic bridges from the plasma membrane. This phenotype correlated with an E-Cadherin AP-1-Dependent targeting defect from recycling endosomes to the plasma membrane surrounding these bridges. E-Cadherin is necessary for their anchoring to the plasma membrane, a role that was hidden by ectopic compensatory expression of N-Cadherin in E-Cadherin mutants. This new role is mediated by E-Cadherin-Dependent organisation of membrane protrusions similar in aspect with and containing proteins of microvillosities present at the apical pole of epithelial cells.

Biologie cellulaire

Trafic membranaire

Adhésion cellulaire

E-Cadhérine

Epithelium

Ovogénèse

Drosophila melanogaster

Cell biology

Membrane trafficking

Cell adhesion

E-Cadherin

Epithelium

Oogenesis

Drosophila melanogaster

Quinase de adesão focal é crítica para a expressão de moléculas pró-aterogênicas em células vasculares submetidas a estresse mecânico / Focal Adhesion Kinase is critical for the expression of pro-atherogenic molecules in vascular cells subjected to mechanical stress

Fernandes, Maruska do Rocio Neufert

07 June 2011

Orientador: Wilson Nadruz Júnior / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Ciências Médicas / Made available in DSpace on 2018-08-18T15:00:13Z (GMT). No. of bitstreams: 1 Fernandes_MaruskadoRocioNeufert_D.pdf: 2265410 bytes, checksum: 8aea5cb9fd86986cff8999d0e81b40fc (MD5) Previous issue date: 2011 / Resumo: O aumento do estresse circunferencial ou mecânico é um dos principais estímulos responsáveis pela aterogênese induzida por hipertensão arterial, além de ser um determinante para a localização das placas ateroscleróticas na árvore arterial. Neste contexto, moléculas mecano-sensíveis ou responsivas ao estresse mecânico podem exercer um papel fundamental no desenvolvimento do fenótipo pró-aterogênico em células vasculares. A quinase de adesão focal (FAK) tem sido considerada uma proteína central na mecanotransdução em diversos tipos celulares, por seu papel potencial na ativação de vias de sinalização envolvidas no crescimento celular, anti-apoptose e inflamação. Neste trabalho, nós inicialmente caracterizamos a ativação da FAK em linhagem de célula endotelial de aorta de coelho (RAEC) submetida a estiramento mecânico pulsátil e, em seguida, investigamos a influência da inibição desta proteína, por meio de oligodeoxinucletídeo-antisense e pelo inibidor farmacológico PP2, sobre a expressão de moléculas pró-aterogênicas e a adesividade leucocitária neste modelo experimental. Nossos resultados mostraram que a FAK é ativada precocemente por estiramento mecânico e é fundamental para a expressão de TLR2, TLR4, VCAM-1 e E-selectina induzida por sobrecarga mecânica em células endoteliais. A inibição da FAK endotelial com PP2 e oligodeoxinucletídeo-antisense bloqueou a adesão de células monocitóides THP1 às células endoteliais induzida por estiramento in vitro. O próximo passo foi avaliar o impacto da FAK sobre expressão de moléculas pró-aterogênicas induzida por sobrecarga hemodinâmica in vivo, utilizando o modelo de coarctação da aorta em ratos Wistar. Os resultados dos estudos in vivo demonstraram que a FAK é ativada nas primeiras horas após instituição da sobrecarga pressora em segmentos de aorta. Após 7 dias de coarctação, os segmentos aórticos proximais à estenose apresentaram aumento na expressão de TLR2, TLR4, VCAM-1, E-selectina, metaloproteinases de matriz 2 e 9, além de maior adesividade às células THP1. Estes fenômenos foram inibidos por meio de tratamento prévio dos animais com small interference RNA direcionado especificamente contra a FAK. Em conjunto, estes dados indicam que a FAK exerce um papel fundamental na resposta pró-aterogênica de células vasculares ao estresse mecânico in vitro e in vivo / Abstract: The increase in circumferential or mechanical stress is a major stimulus by which hypertension stimulates atherogenesis and a main determinant for the location of atherosclerotic plaques in the arterial tree. Mechano-sensitive molecules can play a key role in the development of pro-atherogenic vascular cell phenotype. Focal Adhesion Kinase (FAK) has been considered a central protein in mechanotransduction, because of its potential role in the activation of cell signaling pathways involved in cell growth, anti-apoptosis, and inflammation. In this work, we initially evaluated the activation of FAK in rabbit aortic endothelial cell (RAEC) lineage subjected to cyclic mechanical stretch and then investigated the impact of FAK inhibition, by transfection with specific oligodeoxynucleotide antisense and pre-treatment with the pharmacological inhibitor PP2, on the expression of pro-atherogenic molecules and leukocyte adhesion in this experimental model. Our results showed that FAK was rapidly activated by mechanical stretch and was critical to stretch-induced expression of TLR2, TLR4, VCAM and E-selectin in endothelial cells. FAK endothelial inhibition also blocked the adhesion of THP1 monocytoid cells to endothelial cells induced by stretch in vitro. The next step was to investigate the role of FAK in load-induced expression of pro-atherogenic molecules in vivo, by subjecting Wistar rats to aortic constriction. The results of in vivo assays revealed an early activation of FAK in aortic segments subjected to pressure overload. After 7 days of aortic constriction, vascular segments subjected to high pressure exhibited increased expression of TLR2, TLR4, VCAM-1, E-selectin, matrix metalloproteinases 2 e 9, and higher adhesion to THP-1 monocytoid cells. These events were inhibited by pre-treatment of rats with small interference RNA designed to silence FAK expression. In general these findings indicate that FAK is critical do stretch-induced expression of pro-atherogenic molecules in vascular cells in vitro and in vivo / Doutorado / Ciencias Basicas / Doutor em Clínica Médica

Aterosclerose

Moléculas de adesão celular

Receptores Toll-like

Integrinas

Atherosclerosis

Cell Adhesion Molecules

Focal Adhesion Kinase 1

Toll-Like Receptors

Integrins

Desenvolvimento de hidroxiapatita contendo nanopartículas de prata com propriedades antibacterianas / Development of hydroxyapatite containing silver nanoparticles with antibacterial properties

Flávio Augusto Cavadas Andrade

27 August 2013

A hidroxiapatita (HA) tem sido amplamente utilizada como material de implante por possuir alta similaridade com a composição dos ossos e ter capacidade de formar ligações químicas fortes com o tecido ósseo. Entretanto, a adsorção fácil de moléculas orgânicas (proteínas, aminoácidos e polissacarídeos) pela HA também favorece a adsorção e replicação de bactérias, aumentando os casos de infecções relacionados a esse biomaterial. Visando contribuir para o avanço de novos biomateriais com propriedades antibacterianas, foram produzidas neste trabalho hidroxiapatitas contendo nanopartículas de prata (AgNPs) com diferentes proporções (0,01; 0,05; 0,10 e 0,25% m/m). A primeira etapa do trabalho consistiu na obtenção do pó de HA por precipitação química e na produção de AgNPs em suspensões coloidais por meio de síntese que utiliza a quitosana como agente redutor e estabilizante. Na segunda etapa, as AgNPs foram adsorvidas na HA pelo método de imersão do pó usando um dos coloides sintetizados, obtendo-se quatro hidroxiapatitas contendo AgNPs (HA-AgNPs) nas formas de pó e disco. Na terceira e última etapa, os materiais produzidos foram caracterizados utilizando diversas técnicas e os pós (HA e HA-AgNPs) foram submetidos a avaliações in vitro. O efeito antibacteriano foi avaliado frente a cepas de S. aureus e E. coli utilizando métodos qualitativos e quantitativos. A adesão bacteriana sobre a superfície dos discos foi observada por microscopias eletrônica de varredura (MEV) e confocal de varredura a laser. A citotoxicidade in vitro foi avaliada utilizando cultura de células contendo linhagem de osteoblastos (MG-63). Nesse ensaio, a viabilidade dos osteoblastos foi estudada usando o teste da resazurina; a atividade enzimática foi investigada através da fosfatase alcalina (ALP); e a adesão dos osteoblastos foi observada por MEV. Os resultados mostraram que a HA produzida é nanométrica e que as AgNPs sintetizadas são estáveis e esféricas, com diâmetros variando entre 5-10 nm. Técnicas de MEV, EDS e ICP-AES confirmaram a presença de prata nas HA-AgNPs. As demais caracterizações não mostraram alterações relevantes na estrutura, morfologia e características de superfície (hidrofobicidade e carga líquida). No entanto, a atividade antibacteriana dos materiais mostrou-se eficiente para ambas as cepas e com uma redução de 99,9% das colônias bacterianas em quase todos os materiais já nas primeiras 4 h. Também foi encontrado que a eliminação foi maior tanto para E. coli quanto utilizando materiais em pó. O estudo da adesão bacteriana confirmou os resultados anteriores mostrando efeito superior para quase todas HA-AgNPs produzidas comparado a HA, exceto para o material com menor proporção de AgNPs (0,01% m/m). Por outro lado, os testes de viabilidade, ALP e adesão demonstraram que a HA-AgNPs com maior quantidade de AgNPs (0,25% m/m) tem um efeito negativo sobre os osteoblastos. Considerando ambos os efeitos de citotoxicidade e antibacteriano, aliado a metodologia simples e de baixo custo envolvido na produção desses materiais, sugere-se que a HA contendo entre 0,05 0,10% m/m das AgNPs sintetizada pode ser a mais favorável para o desenvolvimento proposto visando futuras aplicações biomédicas. / Hydroxyapatite (HA) has been widely used as implant material due to its high similarity with the bone composition and its capacity to form strong chemical bonds with the bone tissue. However, the easy adsorption of organic molecules (proteins, amino acids and polysaccharides) by the HA also favors bacteria adsorption and replication, increasing the cases of infection related to this biomaterial. Aiming to contribute to the advancement of new biomaterials with antibacterial properties, were produced in this work hydroxyapatites containing silver nanoparticles (AgNPs) with different ratios (0.01, 0.05, 0.10 and 0.25% m/m). The first step of this work consisted in obtaining the HA powder by chemical precipitation and production of AgNPs colloidal suspensions by synthesis using chitosan as a reducing agent and stabilizer. In the second step, the AgNPs were adsorbed to the HA matrix by the powder immersion method using onde of the synthesized colloids, resulting in four hydroxyapatites containg AgNPs (HA-AgNPs) in disk and powder forms. In the third and final step, the materials produced were characterized using several techniques, with the powders (HA and HA-AgNPs) evaluated in vitro. The antibacterial effect was evaluated against strains of S. aureus and E. coli using qualitative (ágar diffusion test) and quantitative (bacterial colony counts) methods. The bacterial adhesion over the disks surface were observed by Scanning Electron Microscopy (SEM) and confocal laser scanning microscopy. Cytotoxicity was evaluated in vitro using cell culture containing the osteoblast lineage (MG- 63). In this assay, osteoblasts viability was studied using the resazurin test; the enzyme activity was investigated by alkaline phosphatase (ALP), and osteoblast adhesion was observed by SEM. The results showed that the HA produced is nanometric and the synthesized AgNPs are stable and spherical with diameters ranging from 5-10 nm. SEM, EDS and ICP-AES techniques confirmed the presence of silver in the HA-AgNPs. The others characterizations showed no significant changes in the structure, morphology and surface characteristics (hydrophobicity and net charge). However, the materials antibacterial activity was effective for both strains and with reduction of 99.9% of bacterial colonies in almost all materials within the first 4 h. It was also found that the removal was as great for E. coli as for powder materials. The bacterial adhesion study confirmed previous results showing superior effect for almost all HA-AgNPs produced compared to HA, except for the material with the lowest proportion of AgNPs (0.01% m/m). On the other hand, viability tests, ALP and adhesion demonstrated that HA-AGNPS with higher AGNPS quantities (0.25% m/m) has a negative effect on osteoblasts. Considering both cytotoxicity and antibacterial effects, combined with the simple methodology and low cost involved in the production of these materials, it is suggested that the HA containing synthesized AgNPs ranging from 0.05 to 0.10% m/m can be the most favorable for the development of the proposed material for future biomedical applications.

Adesão celular

Adsorção

Biomaterial

Cultura de células

Efeito bactericida

Método de imersão

Quitosana

Resazurina

Adsorption

Bactericidal effect

Biomaterial

Cell adhesion

Cell culture

Chitosan

Immersion method

Resazurin

Ação da jararagina na expressão gênica e protéica de mediadores pró-inflamatórios por células endoteliais humanas. / Action of jararhagin in gene and protein expression of proinflammatory mediators by human endothelial cells.

Daiana Silva Lopes

24 February 2011

A jararagina, isolada do veneno de Bothrops jararaca, possui efeito pró-inflamatório caracterizado por edema, liberação de citocinas e migração celular. Neste estudo, demonstramos o aumento na expressão gênica da quimiocina IL-8, moléculas de adesão (E-Selectina, V-CAM-1, I-CAM-1), CD-69, Angiopoetina-2 e MMP-10 em HUVECs estimuladas com jararagina. Também investigamos o efeito da jararagina na expressão protéica de moléculas de adesão e da quimiocina IL-8. A molécula de adesão PECAM-1 foi expressa na superfície das HUVECs em todos os tratamentos e intervalos de tempo analisados. Entretanto não observamos aumento da expressão de E-selectina e VCAM-1 após estímulo com a jararagina. A jararagina também não induziu a liberação de IL-8. Nossos resultados sugerem que a jararagina se liga nas células endoteliais, mas o receptor celular envolvido neste efeito ainda não está claro. Este trabalho contribui com a literatura na medida em que elucida a participação de importantes genes dentro do contexto inflamatório desencadeado pela jararagina em células endoteliais. / Jararhagin, from Bothrops jararaca venom, causes a local reaction manifested by edema, cytokine release and inflammatory cells recruitment. In this study we evaluated by real time PCR the expression of 9 genes involved in inflammatory response, triggered by jararhagin in HUVECs. Our results showed a significant increase in the gene expression of chemokine IL-8, adhesion molecules (E-selectin, V-CAM-1, I-CAM-1), CD-69, angiopoietin-2 and MMP-10. We also investigated the effect of jararhagin on expression of adhesion molecules in the surface of HUVECs by flow cytometry. We did not observe increased expression of E-selectin and VCAM-1 molecules on the surface of HUVECs compared with control. Jararhagin did not increase the release of soluble chemokine IL-8 in HUVECs supernatant. Our results suggest that jararhagin binds to endothelial cells, but the cellular receptor involved in this effect remains unclear. This work contributes to the literature highlighting the participation of important genes within the inflammatory context triggered by jararhagin on endothelial cells.

Células endoteliais

Inflamação

Moléculas de adesão celular

Serpentes

Toxinas em animal

Venenos de origem animal

Animal poisons

Cell adhesion molecules

Endothelial cells

Inflammation

Snakes

Toxins in animal cells

Quorum sensing em Escherichia coli enteropatogênica atípica. / Quorum sensing in atypical enteropathogenic Escherichia coli.

Paiva, Franciely Paula Toniolo de

18 February 2011

Escherichia coli enteropatogênica atípica (aEPEC) faz parte de um grupo de patógenos capazes de formar um tipo de lesão característica em cultura de tecidos epiteliais, denominada attaching and effacing (A/E). Os genes que são necessários para produção da lesão A/E estão localizados em uma ilha de patogenicidade denominada região LEE (locus of enterocyte effacement). A transcrição de genes da região LEE está sujeita a regulação por vários fatores, entre eles quorum sensing, termo utilizado para designar um mecanismo de regulação gênica dependente da concentração celular. Esse mecanismo é usado por bactérias Gram-positivas e Gram-negativas e em ambos os casos envolve a produção e detecção de moléculas sinalizadoras extracelulares, denominadas autoindutores. Até o momento, pelo menos quatro sistemas de quorum sensing foram descritos, entre eles o sistema de autoindutor AI-3 encontrado em bactérias Gram-positivas e Gram-negativas. Diversos mecanismos celulares, entre eles a expressão de fatores de virulência em amostras de EPEC e EHEC, são regulados por esse fenômeno. O principal objetivo deste estudo foi verificar se existe uma possível regulação por quorum sensing na interação in vitro de uma amostra de E. coli da microbiota intestinal com amostras de aEPEC. Após a confirmação da produção de AI-3 por amostras de E.coli da microbiota intestinal foram realizados ensaios de adesão e quantificação utilizando meio pré-condicionado com esta amostra, epinefrina e bloqueadores que confirmaram que os padrões de adesão de aEPEC obtidos em menor tempo são devidos a presença de AI-3 no meio pré-condicionado, indicando a participação de quorum sensing nessa interação. Além disso, foi observado um fenômeno citotóxico nas células que não é produzido pelo AI-3. / Atypical Enteropathogenic Escherichia coli (aEPEC) are part of a group of pathogens capable of forming a type of lesion characteristic of epithelial tissues in culture, called attaching and effacing (A/E). The genes that are required for production of A/E lesion are located in a pathogenicity island called LEE region (locus of enterocyte effacement). The transcription of LEE genes in the region is subject to regulation by various factors, including quorum sensing, a term used to describe a mechanism of gene regulation dependent on cell concentration. This mechanism is used by Gram-positive and Gram-negative and in both cases involves the production and detection of extracellular signaling molecules, called autoinducers. So far, four systems of quorum sensing have been described, including the system of autoinducers AI-3 found in Gram-positive and Gram-negative bacteria. Several cellular mechanisms, including expression of virulence factors in EPEC and EHEC are regulated by this phenomenon. The main objective of this study was to determine whether there is a possible regulation by quorum sensing in the in vitro interaction of a strains of E. coli of the intestinal microbiota with strains aEPEC. After confirming the production of AI-3 in E. coli of the intestinal microbiota were performed adhesion assays and quantification using means preconditioned with this strains, epinephrine, and blockers who confirmed that patterns of adherence of aEPEC obtained in less time are due to the presence of AI-3 in the preconditioned means, indicating the involvement of quorum sensing in this interaction. Furthermore, we observed a phenomenon that cytotoxic cells is not produced by AI-3.

Escherichia coli (pathogenic)

Escherichia coli (patogenicidade)

Aderência celular

Bacterial genetics

Cell adhesion

Expressão gênica

Fenômenos microbiológicos

Gene expression

Gene transcription

Genética bacteriana

Microbiological phenomena

Transcrição gênica