Global ETD Search

331	The Innate Immune Response to <i>Francisella tularensis</i> Ravneberg, David Huehl 10 September 2009 (has links) No description available. Biomedical Research Immunology Microbiology Francisella novicida tularensis holarctica iNOS Akt infection
332	Modulation of Sodium/Iodide Symporter Expression and Function in Thyroid Liu, Yu-Yu 13 January 2011 (has links) No description available. Endocrinology thyroidal iodide accumulation NIS SPECT 17-AAG Akt PI3K mTOR MEK
333	THE CHARACTERIZATION OF HSA-MIR148A IN HEPATOCARCINOGENESIS Yuan, Ke January 2011 (has links) Chronic Hepatitis B Virus (HBV) infection is a global health problem because of its connection to acute and chronic liver diseases as well as hepatocellular carcinoma (HCC). There is increasing evidence showing that HBV contributes to HCC due to persistently high levels of trans-activating protein---hepatitis B encoded x antigen (HBxAg). Studies have shown that the HBxAg affects and alters the activity of many different transcription factors and plays an essential role in several cytoplasmic signaling transduction pathways, such as Wnt signaling pathways. One of the upregulated genes, designated URG11, was found transactivated by HBxAg. URG11 could stimulate the ß-catenin promoter and hepatocellular growth and survival which suggest that URG11 may be a regulatory element in the ß-catenin signaling pathways. microRNA148a (miR148a) was identified from two miRNA microarrays as one of the up-regulated miRNAs in cells stably expressing HBxAg or over-expressing URG11. Moreover, the expression of miR148a was also elevated in HBV-mediated HCC patient tissue samples. To study the function of miR148a, HepG2 (hepatoblastoma) and Hep3B (hepatoma) cells stably expressing HBxAg or over-expressing URG11 were transduced by recombinant lentiviruses encoding anti-miR148a. anti-miR148a suppressed cell proliferation, cell cycle progression, cell migration, anchorage independent growth in soft agar and subcutaneous tumor formation in SCID mice. Further, introduction of anti-miR148a increased PTEN protein and mRNA expression, suggesting that PTEN was suppressed by miR148a. In addition, anti-miR148a blocked the stimulation of Akt signaling, resulting in decreased expression of ß-catenin. Thus, miR148a may play a central role in HBxAg/URG11 mediated HCC, and may be an early diagnostic marker and/or therapeutic target associated with this tumor type. / Biology Virology Biochemistry Cellular Biology Akt Hepatitis B X Antigen Hepatocellular Carcinoma Mir148a Pten Urg11
334	Characterization of the Activation Mechanism of Bax Kale, Justin January 2017 (has links) Mitochondrial outer membrane permeabilization (MOMP) is regulated by protein-protein and protein-membrane interactions between Bcl-2 family proteins. These interactions are governed by the concentrations and relative binding affinities of the proteins for each other. These affinities are altered by conformation changes of Bcl-2 family proteins resulting from interactions with each other and with membranes. How Bcl-2 proteins transition into and out of the conformations that controls their functions, and ultimately the fate of the cell, is not well understood. Here, kinetic analysis of the pore-forming Bcl-2 family member, Bax, revealed that Bax undergoes a conformational rearrangement through at least one structurally distinct intermediate that is a necessary precursor to pore formation. We discover that four cancer-associated Bax point mutants are trapped in the intermediate state, suggesting that transitions into and out of this intermediate can be modulated independently with consequences for the execution of apoptosis. Furthermore we report that the conformation changes Bax undergoes can be regulated by phosphorylation of Bax on residue S184 by the pro-survival kinase, Akt. Phosphorylation converts Bax into an anti-apoptotic protein that functions in a dominant-negative fashion. Bioinformatics revealed that in human cancers, higher levels of Bax are positively associated with high levels of PI3K/AKT pathway genes representing an added mechanism for cancer cells to evade apoptosis. Additionally we studied the interactions between Bax, the anti-apoptotic protein Bcl-XL, the sensitizer BH3 protein Bad and the BH3 activator protein Bid. We uncover a new mechanism of apoptosis regulation whereby Bad binds to one monomer of a Bcl-XL dimer eliciting an activating conformation change in a tBid bound to the other monomer of the Bcl-XL dimer. This allows Bad to function as a non-competitive inhibitor of Bcl-XL, and represents a novel mechanism that significantly enhances the potency of Bad to elicit apoptosis. / Thesis / Doctor of Philosophy (PhD) / Every day the human body creates billions of cells replacing damaged or unwanted cells. The death of these cells is tightly controlled and can result in disease when misregulated. Cancers arise when there is too little cell death and neurodegenerative diseases, such as Alzheimer’s, arise from too much cell death. Much research, including this thesis, is focused on understanding how cells die because once understood, cell death can be manipulated to treat disease. Cell death ironically occurs at the mitochondria, a cellular organ normally responsible for creating the energy required for the cell to live. When cell death is initiated, the mitochondria get holes poked into them, releasing pro-death factors that irreversibly commit the cell to dying. The work presented here uncovers new information about the regulation of the hole poking process, how it is blocked in breast cancer and how the process may be modulated to treat cancers. Bax Apoptosis Bcl-2 proteins Bcl-XL Biochemistry Biophysics FRET Fluorescence Spectroscopy Cancer AKT
335	Differential Impact of VEGF and FGF2 Signaling Mechanisms on Flt1 Pre-mRNA Splicing Payne, Laura Beth 19 June 2016 (has links) The human proteome is exponentially derived from a limited number of genes via alternative splicing, where one gene gives rise to multiple proteins. Alternatively spliced gene products, although crucial for normal physiology, are also linked to an increasing number of pathologies. Consequently, a growing focus is currently being placed on elucidating the extrinsic cues and ensuing signaling mechanisms which direct changes in gene splicing to yield functionally distinct proteins. Of note is the dysregulation of the vascular endothelial growth factor (VEGF) receptor, Flt1 and its soluble splice variants, sFlt1_v1 and sFlt1_v2, in the pregnancy-related disorder, preeclampsia. Preeclampsia is characterized by proteinuria and hypertension and is responsible for almost 600,000 maternal and fetal yearly deaths, worldwide. Here, we examined the impact of endothelial mitogens VEGF and FGF2 (fibroblast growth factor 2), both of which are upregulated in preeclampsia, on Flt1 transcript variants in umbilical vein endothelial cells. We tested the hypothesis that VEGF modulates the expression of Flt1 variants via the signaling kinase Akt and its impact on SR proteins. VEGF was observed to induce expression of overall Flt1 mRNA, principally as variants Flt1 and sFlt1_v1. Conversely, FGF2 induced a shift in splicing toward sFlt1_v2 without significant increase in overall Flt1. Based on inhibitor studies, the VEGF and FGF2 signals were transduced via ERK, but with the involvement of different upstream components. We mapped predicted SR protein binding to Flt1 pre-mRNA and identified two candidate proteins, SRSF2 and SRSF3, that may be involved in VEGF- or FGF2-induced Flt1 pre-mRNA splicing. Examination of SRSF2 and SRSF3 relative mRNA expression levels, following inhibition of VEGF- and FGF2-activated kinases, indicates that FGF2 significantly downregulates SRSF3 mRNA levels via PKC-independent activation of ERK. Additionally, our data suggest that FGF2 may impact Flt1 and sFlt1_v1 via SR protein kinases Akt and SRPK, while conversely regulating sFlt1_v2 levels via Clk. We did not find evidence of VEGF-induced Flt1 variant splicing via SR protein kinase activation or SRSF2 and SRSF3 mRNA levels. Thus, VEGF and FGF2 signals were tranduced via related but distinct mechanisms to differentially influence Flt1 pre-mRNA splicing. These findings implicate VEGF and FGF2 and their related intracellular signaling mechanisms in soluble Flt1 regulation. / Ph. D. Akt Alternative splicing FGF2 Flt1 ERK Preeclampsia pre-mRNA Signal transduction soluble Flt1 SR proteins VEGF
336	Dickkopf-1 (DKK1) promotes tumor growth via Akt-phosphorylation and independently of Wnt-axis in Barrett’s associated esophageal adenocarcinoma Lyros, Orestis, Lamprecht, Ann-Kristin, Nie, Linghui, Thieme, René, Götzel, Katharina, Gasparri, Mario, Haasler, George, Rafiee, Parvaneh, Shaker, Reza, Gockel, Ines 03 April 2019 (has links) Esophageal adenocarcinoma (EAC) is still associated with poor prognosis, despite modern multi-modal therapies. New molecular markers, which control cell cycle and promote lymph node metastases or tumor growth, may introduce novel target therapies. Dickkopf-1 (DKK1) is a secreted glycoprotein that blocks the oncogenic Wnt/β-catenin signaling and its aberrant expression has been observed in many malignancies, including EAC. In this study, we investigated the biological role of DKK1 in EAC. Analysis of DKK1 and active β-catenin expression in human esophageal tissues confirmed a simultaneous DKK1-overexpression together with aberrant activation of β-catenin signaling in EAC in comparison with Barrett’s and healthy mucosa. To elucidate the molecular role of DKK1, the OE33 adenocarcinoma cells, which were found to overexpress DKK1, were subjected to functional and molecular assays following siRNA-mediated DKK1-knockdown. At the functional level, OE33 cell viability, proliferation, migration and invasion were significantly attenuated by the absence of DKK1. At the molecular level, neither DKK1-knockdown nor application of exogenous recombinant DKK1 were found to alter the baseline β-catenin signaling in OE33 cells. However, DKK1-knockdown significantly abrogated downstream Akt-phosphorylation. On the other hand, the Wnt-agonist, Wnt3a, restored the Akt-phorphorylation in the absence of DKK1, without, however, being able to further stimulate β-catenin transcription. These findings suggest that the β-catenin transcriptional activity in EAC is independent of Wnt3a/DKK1 site-of-action and define an oncogenic function for DKK1 in this type of malignancy via distinct activation of Akt-mediated intracellular pathways and independently of Wnt-axis inhibition. Taken together, DKK1 may present a novel therapeutic target in EAC. info:eu-repo/classification/ddc/610 ddc:610
337	Étude génétique et fonctionnelle de variantes de la région chromosomique 3p21 associée aux maladies inflammatoires de l'intestin Lévesque, Marie-Pierre 04 1900 (has links) Des études de liaison et d’association génétiques ont permis d’identifier certains des facteurs de risque génétiques aux maladies inflammatoires de l’intestin (MII) dans la région chromosomique 3p21. Dans cette région, le polymorphisme nucléotidique simple (SNP) codant non-synonyme du gène MST1, rs3197999, encodant pour la mutation R689C, a été associé et répliqué à la fois à la colite ulcéreuse (CU) et à la maladie de Crohn (MC). Un autre SNP, corrélé à des SNP codants non-synonymes du gène MST1R, a également été associé à la MC. Afin de déterminer si d’autres variantes des gènes MST1 et MST1R sont associés à la CU, nous avons testé pour association des SNP de ces gènes. Seul un proxy de R689C a montré un signal d’association significatif aux MII, ce qui suggère que R689C est la variante causale aux MII dans le gène MST1. En cherchant à déterminer si la région 3p21 contenait plusieurs signaux d’association mutuellement indépendants, trois SNP ont été identifiés comme possible facteurs de risque indépendants, et ont été génotypés dans des cas de CU et de MC et des témoins, puis nos résultats d’association ont été combinés à ceux provenant de trois autres cohortes indépendantes. Les trois SNP, R689C (MST1), rs6802890 et rs7629936 (CDHR4), sont associés aux MII, mais une étude d’association conditionnelle suggère qu’il existe en fait deux signaux d’association mutuellement indépendants dans la région 3p21. Le signal principal provient de R689C, une mutation de la protéine MSP. Cette protéine a un rôle dans l’inflammation chez les macrophages murins, et la migration, la cicatrisation et la survie chez les cellules épithéliales. Dans cette étude, le rôle de la MSP a été investigué dans des modèles de macrophages humains et de cellules épithéliales de côlon, et seule la phosphorylation d’AKT, un acteur dans la voie de signalisation de la survie cellulaire, a été modulée par la MSP dans nos modèles. Ce projet a donc permis d’apporter des connaissances sur les facteurs de risques génétiques aux MII dans la région 3p21, en identifiant 2 signaux d’association indépendants, et en nous informant sur le rôle de MST1, duquel provient le signal d’association principal, chez les cellules humaines. / Linkage studies and association studies allowed the discovery of some of the genetic risk factors of inflammatory bowel disease (IBD) in the chromosomal region 3p21. In this region, the non-synonymous coding single nucleotide polymorphism (SNP) rs3197999, situated in the gène MST1 and encoding for the mutation R689C, has been associated to UC and CD multiple times, and an other SNP, correlated to non-synonymous coding SNPs in the gene MST1R, has also been associated to CD. In order to verify if other variants of MST1 and MST1R are associatied to UC, we tested the association of some of their SNPs. Apart from R689C, only its proxy showed a significative association signal to IBD. It suggests that R689C might be the causal variant of IBD in the region 3p21. In the aim to determine if the region 3p21 has multiple independant association signals, 3 SNPs have been identified, from the results of a published meta-analysis of UC genome-wide association studies, as being possibly independant risk factors for UC based on their correlation. Their association to IBD and their independance have been tested by genotyping them in a cohort composed of controls, and UC and CD cases. The results of the association tests have been combined, in a meta-analysis, to the results of 3 other independent association studies. The 3 SNPs, R689C (MST1), rs6802890 and rs7629936 (CDHR4) are associated to IBD, but the results of the subsequent conditional association tests suggest that there is only 2 independant association signals in the region 3p21. The main signal is raising from R689C, a mutation of the protein MSP. According to published studies, this protein has a function in the inflammation in murine macrophages, and also in the scattering, wound healing and survival of epithelial cells. In this thesis, we investigated the role of MSP in human macrophage models and in human côlon epithelial cells, and it has been show that MSP modulates the phosphorylation of AKT, an actor in the pathway of cellular survival. This project brought some knowledges about the IBD genetic risk factors in the region 3p21. We identified 2 independent association signals to IBD in this region, and the main signal is coming from a SNP in MST1, a gene which has a role, based on our results, in the survival in human colon epithelial cells. 3p21 3p21 MST1 MST1 MST1R MST1R association association méta-analyse meta-analysis maladies inflammatoires de l'intestin inflammatory bowel diseases colite ulcéreuse ulcerative colitis maladie de Crohn Crohn’s disease phosphorylation de AKT phosphorylation of AKT
338	L’amélioration de la performance et de la structure cardiaque par la moxonidine chez les SHR est accompagnée d’une diminution des cytokines, de la MAPK p38 et de l’Akt Farah, Georges 12 1900 (has links) L’hypertrophie du ventricule gauche (HVG) est un processus adaptif et compensatoire qui se développe conséquemment à l’hypertension artérielle pour s’opposer à l’élévation chronique de la pression artérielle. L’HVG est caractérisée par une hypertrophie des cardiomyocytes suite à l’augmentation de la synthèse d’ADN, une prolifération des fibroblastes, une augmentation du dépôt de collagène et une altération de la matrice extracellulaire (MEC). Ces changements génèrent des troubles de relaxation et mènent au dysfonctionnement diastolique, ce qui diminue la performance cardiaque. La suractivité du système nerveux sympathique (SNS) joue un rôle essentiel dans le développement de l’hypertension artérielle et de l’HVG à cause de la libération excessive des catécholamines et de leurs effets sur la sécrétion des cytokines pro-inflammatoires et sur les différentes voies de signalisation hypertrophiques et prolifératives. Le traitement antihypertenseur avec de la moxonidine, un composé sympatholytique d’action centrale, permet une régression de l’HVG suite à une réduction soutenue de la synthèse d'ADN et d’une stimulation transitoire de la fragmentation de l'ADN qui se produit au début du traitement. En raison de l’interaction entre l’HVG, les cytokines inflammatoires, le SNS et leurs effets sur les protéines de signalisation hypertrophiques, l’objectif de cette étude est de détecter dans un modèle animal d’hypertension artérielle et d’HVG, les différentes voies de signalisation associées à la régression de l’HVG et à la performance cardiaque. Des rats spontanément hypertendus (SHR, 12 semaines) ont reçu de la moxonidine à 0, 100 et 400 µg/kg/h, pour une période de 1 et 4 semaines, via des mini-pompes osmotiques implantées d’une façon sous-cutanée. Après 4 semaines de traitement, la performance cardiaque a été mesurée par écho-doppler. Les rats ont ensuite été euthanasiés, le sang a été recueilli pour mesurer les concentrations des cytokines plasmatiques et les cœurs ont été prélevés pour la détermination histologique du dépôt de collagène et de l'expression des protéines de signalisation dans le ventricule gauche. Le traitement de 4 semaines n’a eu aucun effet sur les paramètres systoliques mais a permis d’améliorer les paramètres diastoliques ainsi que la performance cardiaque globale. Par rapport au véhicule, la moxonidine (400 µg/kg/h) a permis d’augmenter transitoirement la concentration plasmatique de l’IL-1β après une semaine et de réduire la masse ventriculaire gauche. De même, on a observé une diminution du dépôt de collagène et des concentrations plasmatiques des cytokines IL-6 et TNF-α, ainsi qu’une diminution de la phosphorylation de p38 et d’Akt dans le ventricule gauche après 1 et 4 semaines de traitement, et cela avec une réduction de la pression artérielle et de la fréquence cardiaque. Fait intéressant, les effets anti-hypertrophiques, anti-fibrotiques et anti-inflammatoires de la moxonidine ont pu être observés avec la dose sous-hypotensive (100 µg/kg/h). Ces résultats suggèrent des effets cardiovasculaires bénéfiques de la moxonidine associés à une amélioration de la performance cardiaque, une régulation de l'inflammation en diminuant les niveaux plasmatiques des cytokines pro-inflammatoires ainsi qu’en inhibant la MAPK p38 et Akt, et nous permettent de suggérer que, outre l'inhibition du SNS, moxonidine peut agir sur des sites périphériques. / Left ventricular hypertrophy (LVH) is an adaptive and compensatory process that develops in hypertension to oppose the chronic elevation of blood pressure. LVH is characterized by hypertrophy of cardiomyocytes following the increase in DNA synthesis, proliferation of fibroblasts, increased collagen deposition and alteration of the extracellular matrix (ECM). These changes generate relaxation and diastolic dysfunction which reduced cardiac performance. The overactivity of the sympathetic nervous system plays an essential role in the development of hypertension and left ventricular hypertrophy pathogenesis due to the excessive release of catecholamines and norepinephrine spillover and their effects on the secretion of pro-inflammatory cytokines and hypertrophic signaling pathways. Antihypertensive treatment with moxonidine, a centrally acting sympatholytic imidazoline compound, results in prevention of left ventricular hypertrophy, resulting from a sustained reduction of DNA synthesis and transient stimulation of DNA fragmentation that occur early after treatment. Due to the interaction between LVH, inflammatory cytokines, the SNS and their effects on hypertrophic signaling proteins, the objective of this study is to detect in an animal model of hypertension and LVH, the different signaling pathways associated with regression of LVH and cardiac performance. Spontaneously hypertensive rats (SHR, 12 weeks old) received moxonidine at 0, 100 and 400 µg/kg/h, for 1 and 4 weeks, via subcutaneously implanted osmotic minipumps. After 4 weeks of treatment, cardiac performance was measured by echo-Doppler. Then the rats were euthanized, blood was collected for measurement of plasma cytokines and hearts for histologic determination of collagen deposition and for measurement of left ventricular expression of downstream signaling proteins. Treatment for 4 weeks had no effect on systolic parameters but improved diastolic parameters and global cardiac performance. Compared to vehicle, moxonidine (400 µg/kg/h) transiently increased plasma IL-1β after 1 week and reduced left ventricular mass. Similarly, there was a decrease in collagen deposition and plasma concentrations of IL-6 and TNF-α, and decreased phosphorylation of p38 and Akt in the left ventricle after 1 and 4 weeks treatment, in association with reduced blood pressure and heart rate. Interestingly, the anti-hypertrophic, anti-fibrotic, and anti-inflammatory effects of moxonidine were observed with a sub-hypotensive dose (100µg/kg/h). These results suggest the beneficial cardiovascular effects of moxonidine associated with improved cardiac performance, regulation of inflammation by decreasing pro-inflammatory plasma levels, inhibition of p38 MAPK and Akt, and allow us to suggest that besides inhibiting the SNS, moxonidine may act on peripheral sites. Hypertrophie du ventricule gauche Hypertension Remodelage cardiaque Système nerveux sympathique Moxonidine SHR Cytokines MAPKs Akt Hypertension Left ventricular hypertrophy Cardiac remodeling Sympathetic nervous system Moxonidine SHR Cytokines MAPKs Akt
339	Anti-VEGFA therapy reduces tumor growth and extends survival in a murine model of ovarian granulosa cell tumor Tsoi, Mayra 09 1900 (has links) Les tumeurs des cellules de la granulosa (GCTs) sont des tumeurs avec un potentiel malin ayant tendance à récidiver, provoquant ainsi la mort dans 80% des cas de stade avancé consécutif à une rechute. Bien que les GCTs représentent 5% des tumeurs ovariennes, peu d’études ont évalué les protocoles de traitement adjuvant pour la maladie avancée ou récurrente. Notre but était d’évaluer l’efficacité de la voie de signalisation du facteur de croissance de l’endothélium vasculaire A (VEGFA) comme cible pour le traitement de la GCT utilisant le modèle murin transgénique Ptentm1Hwu/tm1Hwu; Ctnnb1tm1Mmt/+; Amhr2tm3(cre)Bhr/+ (PCA) qui reproduit le stade avancé de la maladie humaine. Un anticorps anti-VEGFA a été administré une fois par semaine par voie intrapéritonéale (IP) à partir de 3 semaines d’âge. La thérapie anti-VEGFA a permis une réduction de la taille des tumeurs à 6 semaines d’âge (p<0.05) et une prolongation de la survie des animaux traités, lorsque comparé aux animaux contrôles. L’analyse des GCTs a montré une réduction significative de la prolifération cellulaire (p<0.05) et de la densité microvasculaire (p<0.01) mais aucune différence significative n’a été détectée dans l’apoptose cellulaire. p44/p42 MAPK, un effecteur de la signalisation pour le récepteur 2 de VEGFA (VEGFR2) associé à la prolifération cellulaire, était moins activé dans les tumeurs traitées (p<0.05). Par contre, l’activation d’AKT, un effecteur impliqué dans la survie cellulaire, était similaire d’un groupe à l’autre. Ces résultats suggèrent que l’anticorps anti-VEGFA réduit la prolifération cellulaire et la densité microvasculaire chez les souris PCA par inhibition de la voie de signalisation VEGFR2-MAPK, inhibant ainsi la croissance tumorale. En conclusion, l’efficacité de la thérapie anti- VEGFA mérite d’être évaluée en essais contrôlés randomisés pour le traitement des GCTs chez l’homme. / Ovarian granulosa cell tumors (GCTs) are potentially malignant tumors that have a tendency for late recurrence and cause death in 80% of women with advanced GCT due to recurrent disease. Although GCTs represent 5% of ovarian tumors in women, few studies have evaluated adjuvant treatment protocols for advanced or recurrent disease. Our goal was to determine the potential of targeting the vascular endothelial growth factor A (VEGFA) signaling pathway for the treatment of GCT. We used a genetically engineered mouse model, Ptentm1Hwu/tm1Hwu; Ctnnb1tm1Mmt/+; Amhr2tm3(cre)Bhr/+ (PCA), which imitates the advanced human disease. A monoclonal anti-VEGFA antibody was administered by intra-peritoneal injection once a week beginning at 3 weeks of age. Anti-VEGFA therapy significantly decreased tumor weights by 6 weeks of age (p<0.05) and increased survival in treated animals in comparison to controls. Significant decreases in tumor cell proliferation (p<0.05) and microvessel density (p<0.01), but no significant difference in apoptosis was found in PCA tumors. p44/p42 MAPK, a VEGFA receptor 2 (VEGFR2) signaling effector associated with cell proliferation, was significantly less activated in anti-VEGFA-treated tumors (p<0.05). In contrast, AKT activation, a VEGFR2 signaling effector associated with cell survival was similar among all groups. These results suggest that anti-VEGFA therapy effectively reduces cell proliferation and microvessel density in PCA mice by inhibition of the VEGFR2-MAPK pathway, resulting in inhibition of GCT growth. We conclude that anti-VEGFA therapy merits further investigation in the form of controlled randomized trials for the treatment of human GCT. Tumeur des cellules de la granulosa Thérapie anti-VEGFA Angiogenèse Traitement adjuvant Modèle murin préclinique Signalisation AKT Signalisation MAPK Granulosa cell tumor Anti-VEGFA therapy Angiogenesis Adjuvant therapy Preclinical mouse model AKT signaling MAPK signaling
340	Événements moléculaires associés à la résistance acquise aux anti-aromatases dans le cancer du sein hormono-dépendant : voie de survie PI3K/Akt/mTOR : profils d'expression spécifiques de miRNAs / Molecular events associated with acquired resistance to aromatase inhibitors in hormone-dependent breast cancer : the PI3K/Akt/mTOR survival pathway : specific expression profiles of miRNAs Vilquin, Paul 10 December 2013 (has links) La résistance aux anti-aromatases (AAs) constitue un obstacle thérapeutique majeur dans le traitement des cancers du sein RE+. Les objectifs de ce travail étaient : (i) de caractériser les événements moléculaires associés à la résistance acquise aux AAs ; (ii) d’identifier de manière globale de nouveaux profils de miRNAs spécifiquement associés à la résistance aux AAs. Notre étude a mis en évidence le rôle central de la voie Akt/mTOR dans la résistance acquise et de novo aux AAs dans des modèles cellulaires, mais également dans des échantillons de patientes ayant récidivé sous anastrozole. La combinaison d’un AA avec le MK-2206, inhibiteur d’Akt ou avec la rapamycine, inhibiteur de mTOR, augmente la sensibilité à l’AA dans les cellules contrôles et est suffisante pour surmonter la résistance et restaurer la sensibilité à l'hormonothérapie dans les cellules résistantes. Notre travail propose également un modèle de résistance acquise aux AAs basé sur la sélection de cellules « cancer-initiating-like » dotées de propriétés d'auto-renouvellement, d’une résistance intrinsèque aux AAs et d’une sensibilité au MK-2206. Notre étude à grande échelle des miRNAs a identifié la voie Akt/mTOR comme une des cibles privilégiées de ces miRNAs. Nous avons identifié et validé trois miRNAs dérégulés capables de moduler le statut d’activation de la voie Akt/mTOR, qui représentent des cibles potentielles. En conclusion, notre projet a mis en évidence de nouvelles voies de signalisations ciblées par ces miRNAs et de nouveaux évènements moléculaires, qui représentent des candidats potentiels dans la résistance aux AAs / Resistance to aromatase inhibitors (AIs) remains a major drawback in the treatment of ER+ breast cancers. Our objectives were (i) to characterize molecular events associated with acquired AI resistance (ii) to capture a global view of the miRNA expression profiles associated with AI resistance. Our results showed the major role of the Akt/mTOR pathway in both de novo and acquired resistance to AI in cellular models and also in breast tumors of patients who relapsed under anastrozole. Combining AI with the Akt inhibitor MK-2206 or with the mTOR inhibitor rapamycin increased sensitivity to this AI in the control cells and was sufficient to overcome resistance and restore sensitivity to endocrine therapy in the resistant cells. Our findings propose a model of AI-acquired resistance based on the selection of cancer-initiating-like cells possessing self-renewing properties, intrinsic resistance to AI and sensitivity to MK-2206. Our large-scale study identified the Akt/mTOR pathway as one of the main targets of the deregulated miRNAs. We identified and validated three miRNAs able to modulate the Akt/mTOR activation status, suggesting these miRNAs as potential targets. To conclude, our project identified new miRNA-targeted signaling pathways and new molecular events, representing strong candidates in the mediation of AI resistance Cancers du sein Récepteur aux estrogènes Hormonothérapie Résistance aux anti-aromatases PI3K/Akt/mTOR Inhibiteurs des voies de transduction MicroARN Breast cancer Estrogen receptors Endocrine therapy Aromatase inhibitor resistance PI3K/Akt/mTOR pathway Signal transduction inhibitors MiRNA 616.994

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