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Rôle du lipopolysaccharide dans la pathogenèse d'actinobacillus pleuropneumoniae et dans son interaction avec le système immunitaire innéRamjeet, Mahendrasingh January 2008 (has links)
Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal
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Untersuchungen zur Funktion enterischer Gliazellen bei der Vermittlung der angeborenen ImmunantwortSchnabel, Anja 06 August 2014 (has links) (PDF)
Die Gliazellen des enterischen Nervensystems galten lange Zeit lediglich als Packmaterial der Neuronen. Erst in den letzten Jahren rückte dieser Zelltyp in das Interesse der Forschung, weil mehrere Studien eine Schlüsselrolle bei der Erhaltung der Darmwandintegrität postulierten. Da bisher wenig über die immunphysiologischen Eigenschaften der enterischen Gliazellen bekannt war, wurde in dieser Arbeit deren Bedeutung bei der angeborenen intestinalen Immunantwort untersucht. Hierfür wurden Primärkulturen von enterischen Gliazellen eingesetzt, welche aus dem Plexus myentericus adulter Ratten stammten. Es wurde erstmalig nachgewiesen, dass enterische Gliazellen über Toll like und NOD-Rezeptoren (TLR 2, TLR 4, TLR 6, TLR 7, TLR 9, NOD 1, NOD 2) pathogene bakterielle Muster (PAMPs) erkennen. Dabei zeigte sich, dass eine enge Vernetzung zwischen den Toll-like-Rezeptoren besteht. Einerseits findet eine Liganden-spezifische Regulierung der Toll-like-Rezeptoren statt, anderseits beeinflussen TLR spezifische Liganden die mRNA-Expression weiterer Toll-like-Rezeptoren. In der Analyse der intrazellulären Signalweiterleitung konnte die Existenz verschiedener Adaptor- und Interaktionsmoleküle wie RICK und Myd88 sowie der IKK / NF κB Signalweg mit Degradierung von IκB α nach Aktivierung durch LPS belegt werden. Aktivierte enterische Gliazellen sind eine Quelle für pro- und anti-inflammatorische Interleukine (IL-1α, IL 1β, IL 6, IL-10, IL-12), TNF α und Chemokine (Ccl-2, Cxcl-9, Cxcl-10). Sie können somit weitere immunkompetente Zellen rekrutieren und agieren vermutlich als Schnittstelle zwischen der angeborenen und erworbenen Immunantwort. Die Ergebnisse dieser Arbeit implizieren, dass es sich bei enterischen Gliazellen um einen zusätzlichen immunregulatorischen Zelltyp im Darm handelt, welcher aktiv bei der angeborenen Immunabwehr mitwirkt. Neben pro inflammatorischen Eigenschaften tragen enterische Gliazellen auch zur Darmprotektion während Entzündungsprozessen bei. Daraus ergibt sich eine komplexe Funktionalität der enterischen Gliazellen bei der immunologischen Homöostase im Darm.
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FACT, réparation par excision de bases et fixation du facteur de transcription NF-kB sur la chromatine / FACT, Base Excision Repair and Transcription Factor NF-kB binding to chromatinCharles Richard, John Lalith 26 June 2012 (has links)
FACT est une protéine clé, qui joue de multiples rôles, y compris dans la transcription et la réparation de l'ADN endommagé. Néanmoins, comment FACT participe à la réparation et à la transcription de la chromatine n'est pas élucidé. Dans ce travail nous avons tout d'abord étudié le rôle de FACT dans le processus de réparation par excision de base (BER). Nous avons utilisé des nucléosomes reconstitués avec de l'ADN à uracile incorporé au hasard. Nous avons trouvé que l'enzyme UDG est capable d'enlever les uraciles localisés du côté de la solution et pas les uraciles se trouvant en face de l'octamère d'histone. La présence simultanée de FACT et de RSC (facteur de remodelage de la chromatine, impliqué dans la réparation) permet un enlèvement efficace des uraciles localisés du côté de l'octamère d'histone par l'UDG. De plus, l'action concertée de FACT et RSC contribue à l'enlèvement de la lésion oxidative 8-oxoG, autrement inaccessible, de la matrice nucléosomale par l'enzyme OGG1. Ce résultat est obtenu grâce à une activité « co-remodelatrice » de la protéine FACT. Dans ce travail nous décrivons pour la première fois cette nouvelle propriété de FACT et nous montrons par une série d'expériences biochimiques que FACT est capable de stimuler l'activité de remodelage du RSC. Nos expériences montrent que la présence de FACT augmente l'efficacité de RSC à transformer l'énergie libérée par l'hydrolyse de l'ATP en travail « mécanique ». Les données obtenues suggèrent une nature stochastique du BER in vivo, FACT étant un facteur clé dans le processus de réparation. Nous avons également investigué l'implication de l'activité co-remodelatrice de FACT dans la fixation de NF-kB aux matrices nucléosomales. La production de nucléosomes remodelés, mais non - mobilisés (remosomes) n'est pas suffisante pour promouvoir la fixation de NF-kB. Pourtant, la mobilisation des nucléosomes par l'intermédiaire de RSC permet une interaction efficace entre NF-kB et l'ADN nucléosomal. Toutes ces données sont essentielles pour le décryptage du mécanisme moléculaire par lequel FACT agit dans le BER et dans la transcription médiée par NF-kB. / FACT is a vital protein which has multiple roles including one in transcription and repair of damaged DNA. However, how FACT assists repair and transcription remains elusive. In this work, we have first studied the role of FACT in Base Excision Repair (BER). We used nucleosomes containing DNA with randomly incorporated uracil. We found that the enzyme UDG is able to remove uracils facing the solution and not the uracils facing the histone octamer. The simultaneous presence of FACT and RSC (a chromatin remodeler involved in repair) allows, however, a very efficient removal of uracil facing the histone octamer by UDG. In addition, the concerted action of FACT and RSC permits the removal of the otherwise un-accessible oxidative lesion 8-oxoG from nucleosomal templates by OGG1. This was achieved thanks to the co-remodeling activity of FACT. Here we described for the first time this novel property of FACT and we show in a series of biochemical experiments that FACT is able to boost the remodeling activity of RSC. The experiments reveal that the presence of FACT increases the efficiency of RSC to transform the energy freed by ATP hydrolysis into “mechanical” work. The presented data suggest a stochastic nature of BER functioning in vivo, FACT being a key factor in the repair process. The implication of the co-remodeling activity of FACT in NF-kB factor binding to nucleosomal templates was also investigated. The generation of remodeled, but not mobilized nucleosomes (remosomes), was not sufficient to promote NF-kB binding. However, the RSC-induced nucleosome mobilization allows efficient NF-kB interaction with nucleosomal DNA. Our data are instrumental in deciphering the molecular mechanism of FACT implication in BER and NF-kB mediated transcription.
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Efeito da melatonina sobre a viabilidade de células granulares de cerebelo em cultura depende do contexto celular / The cellular context determines the effect of melatonin on the survival of cerebellar granule cellsDaiane Gil Franco 13 May 2014 (has links)
Diversos neurônios apresentam uma atividade constitutiva de NF-?B, o qual desempenha múltiplas funções fisiológicas, além da modulação de respostas patológicas. A melatonina, hormônio produzido ritmicamente pela glândula pineal na fase de escuro, é também um fator autócrino e parácrino envolvido em múltiplos processos biológicos, sendo que a citoproteção é uma ação de destaque dessa molécula. A melatonina inibe a translocação nuclear do NF-?B e a expressão do seu produto iNOS em modelos de danos celular. No presente trabalho avaliamos se o efeito citoprotetor da melatonina depende do estado de ativação do NF-?B em cultura de células granulares de cerebelo, tendo em vista que essas células apresentam uma atividade basal deste fator de transcrição fundamental para a sobrevivência das células. Além disso, questionamos se essas células em cultura produziriam melatonina e se esta teria algum papel citoprotetor. Testamos a viabilidade da cultura de células granulares de cerebelo de rato (Wistar 7-8 dias de idade) após 24 horas de incubação com melatonina na presença ou ausência de LPS. Em condição basal a melatonina diminuiu a sobrevivência das células e inibiu a morte celular induzida pelo LPS. Este efeito foi compatível com os resultados da ativação do NF-?B e da expressão da iNOS. Na presença do LPS a melatonina bloqueia a indução da translocação nuclear do NF-?B, a expressão da iNOS e a produção de NO. Quando apenas a melatonina foi incubada, observamos uma inibição transiente (15 min.) do NF-?B, seguida por um aumento do conteúdo nuclear do fator de transcrição (60 min.). A expressão da iNOS seguiu o mesmo perfil, ou seja, sofreu uma inibição transiente (30 min.) seguida de um aumento acima do nível basal após 120 minutos de incubação. Portanto, demonstramos que a melatonina afeta de forma diferente a viabilidade de células granulares de cerebelo dependo do contexto em que as células se encontram. Além disso, obtivemos evidências de que essas células expressam a enzima a AA-NAT, e produzem melatonina, que exerce função protetora para a cultura. Desta forma, nossos dados proporcionam uma base mecanicista para a compreensão da influência do contexto celular na resposta à melatonina / Several neurons constitutively express NF-?B, which plays some physiological roles, besides the well-known control of pathological responses. Melatonin, the hormone produced by the pineal gland rhythmically in the dark phase is also an autocrine and paracrine factor of immune competent cells, involved in multiple biological processes and the cytoprotective action is a highlight of this molecule. Melatonin inhibits the nuclear translocation of NF-?B and the expression of iNOS in models of cell damage. The present study evaluated whether the cytoprotective effect of melatonin depends on the state of activation of NF-?B in cultured cerebellar granule cells, given that these cells have a basal activity of this transcription factor essential for cell survival. Moreover, we questioned whether these cells in culture produce melatonin and whether it would have a cytoprotective role. We tested the viability of the rat (7-8 days old Wistar) cerebellar granule cell culture after 24 h incubation with melatonin in the presence or absence of LPS. In basal condition melatonin decreased cell survival while inhibited cell death induced by LPS. These effects were consistent with the results from the activation of NF-?B and the expression of iNOS. In the presence of LPS melatonin blocked the activation of the NF-?B , the expression of iNOS and the production of NO. When only melatonin was incubated, we observed a transient reduction (15 min) of NF-?B nuclear content, followed by an increase of its nuclear content (60 min). The iNOS expression followed the same profile, i.e. undergone a transient inhibition (30 min), followed by an increase above baseline after 120 min of incubation. Therefore, we have demonstrated that melatonin affects differently the viability of cerebellar granule cells depending on the context. Furthermore, we founded evidences that the granule cells in culture express the key enzyme in the synthesis of melatonin, AA-NAT and produce melatonin, which carries protective function for the culture. Our data provide a mechanistic basis for understanding the influence of cell context on the final output response to melatonin
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A inibição das vias TLR4/NF-kB e do NLRP3/IL-1beta previne a DRC em um modelo de inibição crônica de NO associado à sobrecarga de sal / Inhibition of both the TLR4/NF-kB and NLRP3 inflammasome pathways prevents CKD in a model of chronic NO inhibition associated with salt overloadFernanda Florencia Fregnan Zambom 12 September 2018 (has links)
A inibição crônica do óxido nítrico com Nw-nitroargininemethylester (L-NAME), associado à sobrecarga de sal, leva a hipertensão grave, albuminúria, glomeruloesclerose, isquemia glomerular e fibrose intersticial, caracterizando um modelo de doença renal crônica (DRC). Achados anteriores deste laboratório e de outros sugerem que a ativação de pelo menos duas vias da imunidade inata, TLR4/NF-kB e NLRP3/IL-1beta, ocorre em vários modelos experimentais de DRC e que a progressão da lesão renal pode ser atenuada com a inibição destas vias. No presente estudo, investigamos se a ativação da imunidade inata, através da via TLR4/NF-kB ou NLRP3/IL-1beta, está envolvida na patogênese da lesão renal em outro modelo de DRC, o de inibição crônica do NO com sobrecarga de sal. Ratos Munich-Wistar machos adultos receberam sobrecarga de sal (2% Na+ na dieta e 0,5% Na+ na água do bebedouro) e L-NAME (32 mg/Kg/dia) dissolvido na salina do bebedouro (Grupo HS+N) ou tratados com alopurinol (Alo, 36 mg/Kg/dia, v.o), usado como inibidor de NLRP3 (grupo HS+N+Alo) ou tratados com ditiocarbamato de pirrolidina (PDTC, 60 mg/Kg/dia, v.o), um inibidor de NF-kB (Grupo HS+N+PDTC). Após 4 semanas, os ratos HS+N desenvolveram hipertensão arterial, albuminúria e lesão renal, juntamente com inflamação renal, estresse oxidativo e ativação de ambas as vias NLRP3/IL1-beta e TLR4/NF-kB. Alo reduziu o ácido úrico renal e inibiu a via NLRP3/IL-1beta. Esses efeitos foram associados à atenuação da hipertensão arterial, albuminúria e inflamação/fibrose intersticial, mas não à lesão glomerular. O PDTC diminuiu o ácido úrico renal e inibiu as vias NLRP3 e NF-kB, promovendo um efeito antiinflamatório e nefroprotetor mais eficiente que o Alo. As vias NLRP3/IL-1beta e TLR4/NF-kB atuam paralelamente para promover lesão/inflamação renal e devem ser simultaneamente inibidas para obter nefroproteção maior nesse modelo de DRC / Nitric oxide inhibition with Nk-nitroargininemethylester (L-NAME) along with salt overload leads to severe hypertension, albuminuria, glomerulosclerosis, glomerular ischemia and collapse, together with interstitial fibrosis, characterizing a model of chronic kidney disease (CKD). Previous findings of this laboratory and elsewhere suggest that activation of at least two pathways of innate immunity, TLR4/NF-kB and NLRP3 inflammasome/IL-1beta, occurs in several experimental models of CKD, and that progression of renal injury can be slowed with inhibition of these pathways. In the present study, we investigated whether activation of innate immunity, through either the TLR4/NFkB or NLRP3/IL-1beta pathway, is involved in the pathogenesis of renal injury in yet another CKD model, chronic NO inhibition with salt overload. Adult male Munich-Wistar rats receiving L-NAME in drinking water and salt overload (Group HS+N) were treated with Allopurinol (ALLO), used as an NLRP3 inhibitor (Group HS+N+ALLO), or PyrrolidineDithiocarbamate (PDTC) a NF-kB inhibitor (Group HS+N+PDTC). After 4 wks, HS+N rats developed hypertension, albuminuria and renal injury, along with renal inflammation, oxidative stress and activation of both the NLRP3/IL1-beta and TLR4/NF-kB pathways. ALLO lowered renal uric acid and inhibited the NLRP3 pathway. These effects were associated with amelioration of hypertension, albuminuria and interstitial inflammation/fibrosis, but not glomerular injury. PDTC lowered renal uric acid and inhibited both the NLRP3 and NF-kB pathways, promoting a more efficient anti-inflammatory and nephroprotective effect than ALLO. NLRP3/IL-1beta and TLR4/NF-kB act in parallel to promote renal injury/inflammation and must be simultaneously inhibited for best nephroprotection
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Activation de la voie NF-kB par les protéines Tax des HTLV : Rôles des modifications post-traductionnelles et de la localisation de Tax / Activation of the N F-kB pathway by the Tax proteins of the HTLV viruses : Roles of Tax post-translational modifications and localizationBonnet, Amandine 15 November 2012 (has links)
Le virus T lymphotrope humain de type 1 (HTLV-1, Human T cell Leukemia Virus type 1) est l'agent responsable de la leucémie à cellules T de l'adulte, une prolifération maligne de lymphocytes T CD4+. L'activation constitutive de la voie NF-kB dans les lymphocytes T exprimant la protéine virale Tax s'est révélée primordiale pour la prolifération et la transformation induites par HTLV-1. Selon le modèle classique, Tax agit à deux niveaux de la voie NF-kB. Dans le cytoplasme, Tax active constitutivement le complexe IKK (IKB Kinase) en se liant à sa sous-unité régulatrice NEMO/IKKy. Dans le noyau, Tax interagit directement avec les dimères NF-kB dans des corps nucléaires Tax. L'ubiquitinylation et la SUMOylation de Tax ont été initialement décrites comme nécessaires pour l'activation de la phase cytoplasmique et de la phase nucléaire respectivement. Cependant, les mécanismes régulateurs des modifications post-traductionnelles de Tax restent difficiles à identifier car il n'a pas été possible d'étudier séparément l'ubiquitinylation et la SUMOylation de Tax.Au laboratoire, nous avons généré et caractérisé fonctionnellement un nouveau mutant de Tax qui nous a permis de découpler les rôles de l'ubiquitinylation et de la SUMOylation de Tax. Tax- P79AQ81A est ubiquitinylé de façon quantitativement similaire à Tax mais présente une forte réduction (80%) de SUMOylation. De plus, Tax-P79AQ81A ne forme pas de corps nucléaires. Néanmoins, ces deux défauts ne semblent pas préjudiciables pour la capacité du mutant à activer la voie NF-KB non seulement dans des lignées cellulaires mais également dans des lymphocytes T CD4+ primaires. En parallèle, nous avons montré que les corps nucléaires Tax sont rarement présents dans des lymphocytes T chroniquement infectés par HTLV-1, renforçant l'idée que ces structures ne sont pas requises pour l'activation de la voie NF-KB et probablement pas pour les autres fonctions de Tax. Enfin, nous avons démontré que les capacités d'activation de la voie NF-KB de différents mutants de Tax sont fortement corrélées à leur niveau d'ubiquitinylation mais pas de SUMOylation, confirmant que l'ubiquitinylation de Tax est la modification essentielle pour l'activation de la voie NF-KB.Le virus HTLV-2 ne possède pas les propriétés transformantes du virus HTLV-1 et les propriétés de la protéine Tax2 comparées à celles de Tax1 pourraient être à l'origine des différences de pathogénicité entre les deux virus. Notre étude a révélé que, de façon surprenante, l'activation de la voie NF-KB par la protéine Tax2 est non seulement indépendante de la SUMOylation et de la formation des corps nucléaires comme pour Tax1, mais également indépendante d'une quelconque ubiquitinylation, suggérant des mécanismes différents d'activation du complexe IKK parTax1 et Tax2.Nos études, aussi bien de la protéine Tax1 que de la protéine Tax2, nous ont donc permis de revisiter le modèle actuel d'activation de la voie NF-kB en démontrant l'impact mineur de la SUMOylation et en révélant une différence majeure en ce qui concerne le rôle de l'ubiquitinylation, distinguant les virus HTLV-1 et HTLV-2 / Human T cell Leukemia Virus type 1 (HTLV-1) is the etiological agent of adult T-cell leukemia (ATL), a CD4+ T-cell malignancy, Constitutive activation of the NF-KB pathway plays a crucial role in cell proliferation and transformation induced by HTLV-1, According to the classical model, Tax acts at two levels on the NF-KB pathway, In the cytoplasm, Tax activates the IKB kinase (IKK) complex by directly interacting with the regulatory subunit NEMO/IKKy, In the nucleus, Tax directly interacts with the NF-KB dimers in particular structures named Tax nuclear bodies, Both ubiquitinylation and SUMOylation were initially considered as critical for activation of the cytoplasmic or nuclear phase, respectively, However, the individual role of each modification was difficult to assess because of the lack of molecular tools allowing to study Tax ubiquitination and SUMOylation separately,In the laboratory, we functionally characterized a new Tax mutant, Tax-P 7 9AQ81A, which gave us the opportunity to uncouple Tax ubiquitination and SUMOylation, Indeed, Tax-P79AQ81A is ubiquitinated similarly to wild-type Tax but is severely reduced in SUMOylation, In addition, Tax- P 7 9AQ81A does not form nuclear bodies, However, despite these two severe defects, we found that the mutant is fully able to activate the NF-KB pathway not only in cells lines but also in CD4+ primary T cells, Moreover we showed that Tax nuclear bodies are hardly present in HTLV-1 chronically infected T cell lines, confirming the idea that these structures are not required for Tax-induced NF-KB activation and probably for other Tax functions, Finally, we demonstrated that ability of different Tax mutant to activate the NF-KB pathway is strongly correlated with their ubiquitination but not SUMOylation level, confirming that ubiquitination is the key Tax modification required for activation of the NF-KB pathway,In contrast to HTLV-1, the related HTLV-2 virus is not a transforming virus and therefore, the properties of the Tax2 protein compared to that of Tax1 could be responsible for the different pathogenicity of HTLV-2 and HTLV-1, We studied the post-translational modifications of Tax2 and surprisingly, found that Tax2-induced NF-KB activation is not only independent of SUMOylation and nuclear body formation but also of ubiquitination, suggesting different mechanisms of activation of the IKK complex by Tax1 and Tax2,In conclusion, our results led us to propose a new model for both Tax1- and Tax2-induced NF- KB activation in which SUMOylation has a minor role and in which the requirement of Tax ubiquitination distinguishes between HTLV-1 and HTLV-2
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Evaluation des effets anti-cancéreux de Berberis Libanotica sur des lignées leucémiques humaines : étude de son mécanisme d'action / Studies of the Berberis libanotica effect on the induction of apoptosis in erythroleukemia cells : analysis of its mode of actionDiab, Saada 30 October 2015 (has links)
Les stratégies actuelles de lutte contre le cancer consistent à développer de nouveaux traitements à base de molécules d’origine naturelle susceptibles de déclencher l’apoptose de cellules malignes et d’inhiber les principales voies de survie cellulaire. Le premier objectif de ces travaux porte sur les effets anti-prolifératifs et apoptotiques de l’extrait éthanolique de la plante Berberis libanotica sur les lignées érythroleucémiques humaines HEL, K562 et K562 (COX-2+) et sur son effet sur l’expression de la COX-2 dans ces lignées. Nos résultats montrent que l’extrait induit l’apoptose dans les lignées étudiées et ceci par activation de la caspase-3, le clivage de la PARP-1 et la fragmentation de l’ADN. De même, il induit la diminution de l’expression de COX-2. Nous avons démontré que les voies survie de NF-ĸB et p-AKT sont inhibées. Le deuxième objectif de ces travaux consistent à identifier la molécule présente dans cet extrait et qui est capable de déclencher ces effets anticancéreux. Nous avons démontré que la berbérine est la molécule majoritaire dans cet extrait et possède des effets apoptotiques et des effets inhibiteurs des voies de survie, ce qui est similaire aux effets de l’extrait brut.Mots clés :érythroleucémie, apoptose, berberis libanotica, berbérine, COX-2, NF-kB, p-AKT. / The first aim of this study focuses on the apoptotic effect of Berberis Libanotica on human erythroleukemia cell lines HEL, K562, and K562(COX-2+) and it is effect on the expression of COX-2. In light of the reported chemopreventive and chemosensitive effects of natural products on various tumor cells and animal models, we postulated that our Bl extract may mediate their effects through apoptosis induction with suppression of cell survival pathways. We showed that this extract induces apoptosis in eryrhtroleukemia cells by activation of the late markers of caspase-3 activation, PARP cleavage and DNA fragmentation. In the other hand, we showed that Bl extract reduced significantly expression of COX-2 by a dose-dependent manner. In regard to our results, it is clear that the simultaneous inhibition of Akt and NF-κB signalling can significantly contribute to the anticancer effects of Bl extract in human erythroleukemia cells.The second objective of this report is to elucidate wich molecule present in our extract can exert this effects. We found that berberine, the majoritory compound, can induce an apoptotic effect and inhibits the survival pathway of NF-ĸB and p-AKT similarly to the extract.Key words: erythroleukemia, apoptosis, Berberis libanotica ,berberine, COX-2, NF-ĸB, p-AKT
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Influence de Toxoplasma Gondii dans la régulation d'UHRF1 via la voie NF-KB / Influence of Toxoplasma gondii in the regulation of UHRF1 by NF-KB signaling pathwayKanjo, Ghaidaa 30 September 2014 (has links)
T. gondii interfère avec l'activation des voies de signalisation de NF-kB des cellules hôtes. Ainsi, lors de l’infection par T. gondii, 85% des gènes dépendant de NF-kB sont up-régulés. Un autre facteur de transcription dont l’expression est modulée par le parasite est UHRF1 (Ubiquitin-like,containing PHD and RING finger domains, 1). UHRF1, en se fixant sur le promoteur du gène de la cycline b, induit une répression épigénétique de ce dernier conduisant à un arrêt du cycle cellulaire des cellules infectées en phase G2 et à un arrêt de la prolifération parasitaire. L’analyse in silico du promoteur du gène uhrf1 a montré qu’il possédait 9 sites de fixation de NF-kB. Effectivement nous avons démontré que NF-kB interagit avec le promoteur du gène uhrf1 lors d’une infection par T. gondii. L’expression d’UHRF1 serait donc modulée par NF-kB dans les cellules infectées par T. gondii. Or NF-kB a une régulation différentielle en fonction de la nature de la souche infectante. Là encore, nous avons pu observer une régulation différentielle d’UHRF1 selon la nature de la souche infectante, pouvant être dues à la régulation souche dépendante de NF-kB. La détermination du rôle précis de l’activation d’UHRF1 dans les cellules infectées et l’identification du ou des facteurs parasitaires responsables pourraient permettre de mieux comprendre les mécanismes de persistance intracellulaire du parasite et de découvrir de nouveaux points d’impact thérapeutiques. / T.gondii interferes with the activation of NF-kB signaling pathways. Thus, upon infection by T.gondii, 85% of genes NF-kB-dependent are up-regulated. Another transcription factor whose expression is modulated by the parasite is UHRF1 (Ubiquitin-like, Containing PHD and RINGfinger domains, 1). UHRF1, bind to the gene promoter of cyclin b and induces epigenetic repression of this gene leading to cell cycle arrest in G2 phase of infected cells and stop the proliferation in both infected cells and parasite. In silico analysis of the uhrf1 gene promoter has been shown to possess 9 binding sites of NF-kB. Our study showed that NF-kB actually interacts with the promoter of gene uhrf1 during infection with T. gondii. This suggests that the expression of UHRF1 is modulated by NF-kB in T. gondii-infected cells. In addition we observed differential regulation of UHRF1 depending on the nature of the infecting strain. These variations may also be due to already well-known differential regulation of NF-kB by different strains of T.gondii. Determining the precise role of UHRF1 activation in infected cells and the identification of the parasitic factor responsible of this activation would allow to a better understanding of the mechanisms of intracellular persistence of the parasite and allow to unravel new therapeutic trails.
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Contribuição do estresse oxidativo para a ativação das vias NF-kB, FOXO e MAPK para atrofia muscular associada à insuficiência cardíaca: efeito do treinamento físico aeróbico / Contribution of oxidative stress to NF-kB, FOXO and MAPK signaling pathway activation in atrophy induced by heart failure: role of aerobic exercise trainingTelma Fátima da Cunha 20 January 2015 (has links)
A musculatura esquelética tem um papel fundamental para a manutenção da homeostase do organismo. A perda de massa muscular está relacionada a prejuízos na qualidade de vida de indivíduos saudáveis, além de piorar o prognóstico de pacientes com doenças sistêmicas, como o câncer, o diabetes e a insuficiência cardíaca. Em quadros mais graves de insuficiência cardíaca, a perda excessiva de massa muscular associada a um reduzido consumo de oxigênio de pico, são considerados como preditores independentes de mortalidade. O aumento do estresse oxidativo tem sido apontado como um dos principais desencadeadores do aumento da degradação de proteínas na atrofia muscular. Na presente tese, investigamos a contribuição do estresse oxidativo para a ativação das vias de sinalização NF-kB, FOXO e MAPK na atrofia muscular desencadeada pela insuficiência cardíaca. Para compreender melhor os mecanismos envolvidos na ativação dessas vias pelo estresse oxidativo, utilizamos a linhagem de células musculares C2C12. Observamos que o tratamento com peróxido de hidrogênio (1,2mM, 12h) induziu um aumento do estresse oxidativo, o qual foi capaz de aumentar a atividade do proteassoma, desencadeando a atrofia dos miotúbulos. Verificamos também um aumento da expressão proteica de alguns componentes dessas vias de sinalização, como p-p38 e NF-kB; apontando para uma ativação diferenciada dessas vias pelo estresse oxidativo. Para verificar se essas vias de sinalização relacionadas ao estresse oxidativo estavam também relacionadas à atrofia desencadeada pela insuficiência cardíaca, avaliamos um modelo experimental de ratos com insuficiência cardíaca induzida pelo infartado do miocárdio. Observamos uma redução da área de secção transversa do músculo plantar, acompanhada de um aumento da inflamação sistêmica, de p38 e das atividades de NF-kB e do proteassoma. Como o treinamento físico aeróbico tem se apresentado como uma estratégia terapêutica não farmacológica eficaz na redução do estresse oxidativo e no restabelecimento da atividade do sistema ubiquitina proteassoma, submetemos os ratos infartados ao treinamento físico aeróbico em esteira rolante. O treinamento físico aeróbico preveniu a perda de massa muscular, reduzindo a inflamação sistêmica e as atividades de NF-kB e do proteassoma. Em conjunto, os resultados apontam para o estresse oxidativo como um fator preponderante para o aumento da degradação de proteínas relacionada à atrofia muscular, seja por indução de inflamação (TNF-α) ou por sua ação direta. Além disso, observamos que as vias de sinalização são ativadas de forma diferenciada nos dois modelos, sugerindo que a degradação de proteínas nos miotúbulos está relacionada ao controle de qualidade de proteínas e, nos ratos infartados, às alterações do metabolismo, servindo como fonte de energia. Já o treinamento físico aeróbico comprovou sua eficácia no restabelecimento da atividade do proteassoma, reduzindo a inflamação e a atividade de NF-kB, prevenindo assim, a perda de massa muscular / About 40% of human body mass consists of skeletal muscles, which are involved in all aspects of movement including breathing, eating, posture, walking and reflexes. Skeletal muscle is also important as a source of heat generation and as a regulator of intermediary metabolism. Loss of skeletal muscle mass and function (skeletal muscle atrophy) leads to several functional impairments, affecting health and quality of life. It occurs in several chronic diseases such as cancer, diabetes and heart failure. In heart failure, atrophy is considered an independent predictor of poor prognosis. Oxidative stress has a crucial role in atrophy, activating different signaling pathways capable of stimulating the ubiquitin proteasome system to degrade proteins. In this study, we investigated the oxidative stress contribution to NF-kB, FOXO and MAPK signaling pathway activation in heart failure-induced atrophy. To better understand the mechanisms involved with oxidative stress and signaling pathways activation in atrophy, we have used C2C12 skeletal muscle cells. We observed that, even in high hydrogen peroxide concentrations, oxidative stress increased proteasome activity, phosphorylated p38 and NF-kB protein expression, causing myotubes atrophy. In an experimental heart failure model of infarcted rats, we evaluated plantaris muscle and verified a reduced cross sectional area, accompanied by increased systemic inflammation, p-38 protein expression and increased both NF-kB and proteasome activities. As aerobic exercise training causes a lot of beneficial effects on skeletal muscle structure and function in chronic diseases, we submitted infarcted rats to 8 weeks of aerobic exercise training on a treadmill. Aerobic exercise training prevented atrophy by reducing inflammation and both NF-kB and proteasome activities. Collectively, our data suggest a differentiated activation by oxidative stress in muscle cells and animal models. In the first case, protein degradation was involved with protein quality control; and, in the other, oxidative stress is a second messenger, stimulating protein degradation to provide substrates to metabolism. Aerobic exercise training re-established proteasome activity by reducing inflammation and NF-kB activity, preventing muscle atrophy
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Rôle de l’activation chronique de la voie NF-kB induite par l’oncoprotéine Tax du virus HTLV-1 dans la régulation de l’épissage alternatif / The Impact of the NF-kB chronic activation mediated by the HTLV-1 Tax oncoprotein on alternative splicing regulationBen Ameur, Lamya 13 September 2019 (has links)
La voie de signalisation NF-kB (nuclear factor kB) régule la transcription de gènes impliqués dans la réponse immune et l’inflammation. L’activation chronique de cette voie est fréquemment retrouvée associée à des désordres inflammatoires et des cancers. Les impacts fonctionnels de l’activation de la voie NF-kB ont été jusqu’à présent étudiés à l’échelle des promoteurs. Néanmoins, les études récentes de la distribution chromatinienne de NF-kB indiquent que la sous-unité NF-kB RelA se localise majoritairement dans les régions intragéniques, incluant des exons et des introns, où ses fonctions restent inconnues. Mes travaux ont consisté à adresser cette question dans le contexte de l’infection par le virus HTLV-1, un activateur chronique de la voie NF-kB, responsable de la leucémie T de l’adulte. Mes données montrent que l’activation de la voie NF-kB par l’oncogène viral Tax de HTLV-1 s’accompagne de modifications de l’épissage alternatif d’exons riches en GC qui coïncident avec le recrutement chromatinien de RelA à proximité de ces exons régulés. Les analyses intégratives des profils d’épissage et du remodelage de la chromatine, combinées à des essais de ciblage expérimental de la chromatine (TALE), démontrent que la fixation intragénique de RelA permet de recruter le régulateur d'épissage DDX17 pour moduler l’épissage alternatif de l’exon via son activité hélicase. Ces données révèlent que, outre ses fonctions transcriptionnelles, le facteur NF-kB RelA agit comme une ancre chromatinienne pour le facteur d’épissage DDX17 et fournit une spécificité de régulation d’épissage alternatif. Ces données revisitent nos connaissances des mécanismes physiopathologiques des maladies associées à HTLV-1 ainsi que d'autres désordres reliés à l’activation chronique de la voie NF-kB / The NF-kB (nuclear factor kB) signaling pathway regulates gene transcription of genes involved in immune response and inflammation. Chronic activation of NF-kB frequently associated with inflammatory disorders and cancer. The functional impacts of NF-kB have long been studied at the promoter level. Nevertheless, recent studies of the chromatin distribution of RelA indicate that this NF-kB subunit is predominantly localized in intragenic regions, including exons and introns, where its functions remain unknown. My work has addressed this question in the context of HTLV-1 infection, which is a constitutive activator of NF-kB, and the causative agent of the Adult T-cell Leukemia. The results show that the activation of NF-kB by the viral oncoprotein Tax results in changes in alternative splicing regulations of GC-rich exons that coincide with the chromatin recruitment of RelA in the vicinity of these exons. Integrative analysis of RNA splicing and chromatin occupancy, combined with experimental chromatin tethering assays (TALE) demonstrate that the intragenic binding of RelA leads to the recruitment of the splicing regulator DDX17, which modulates the inclusion rate of exon thanks to its helicase activity. Altogether, these data reveal that, besides its transcriptional role, NF-kB RelA acts as a chromatin anchor for the splicing factor DDX17 and provides alternative splicing specificity. These data revisit our knowledge of the physiopathologic mechanisms of HTLV-1 associated diseases , as well as other disorders related to the chronic activation of the NF-kB pathway
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