Global ETD Search

1	The Role of ERK/MAPK In The Postnatal Development of Lower Motor Neurons January 2017 (has links) abstract: The Erk/MAPK pathway plays a major role in cell growth, differentiation, and survival. Genetic mutations that cause dysregulation in this pathway can result in the development of Rasopathies, a group of several different syndromes including Noonan Syndrome, Costello Syndrome, and Neurofibromatosis Type-1. Since these mutations are germline and affect all cell types it is hard to differentiate the role that Erk/MAPK plays in each cell type. Previous research has shown that individual cell types utilize the Erk/MAPK pathway in different ways. For example, the morphological development of lower motor neuron axonal projections is Erk/MAPK-independent during embryogenesis, while nociceptive neuron projections require Erk/MAPK to innervate epidermal targets. Here, we tested whether Erk/MAPK played a role in the postnatal development of lower motor neurons during crucial periods of activity-dependent circuit modifications. We have generated Cre-dependent conditional Erk/MAPK mutant mice that exhibit either loss or gain of Erk/MAPK signaling specifically in ChAT:Cre expressing lower motor neurons. Importantly, we found that Erk/MAPK is necessary for the development of neuromuscular junction morphology by the second postnatal week. In contrast, we were unable to detect a significant difference in lower motor neuron development in Erk/MAPK gain-of-function mice. The data suggests that Erk/MAPK plays an important role in postnatal lower motor neuron development by regulating the morphological maturation of the neuromuscular junction. / Dissertation/Thesis / Masters Thesis Biology 2017 Neurosciences Developmental biology Erk/MAPK Lower Motor Neuron NMJ Rasopathy
2	Le rôle de la phosphatase DUSP6 dans le contrôle de la tumorigenèse et de l’inflammation intestinale Beaudry, Katia January 2017 (has links) La voie de signalisation ERK/MAPK est connue pour son implication dans la progression du cycle cellulaire et dans le contrôle de la différenciation dans les cellules épithéliales intestinales. La phosphatase cytoplasmique DUSP6 a pour seuls substrats les kinases ERK1/2, kinases effectrices de la voie ERK/MAPK. Son rôle dans le contrôle des différents processus influencés par la signalisation ERK/MAPK n’a encore jamais été étudié dans l’épithélium intestinal et colique, malgré l’implication connue de cette voie de signalisation dans le contrôle de la prolifération et de la différenciation des cellules épithéliales intestinales. Pour étudier son rôle dans le maintien de l’homéostasie intestinale, un modèle de souris invalidée pour Dusp6 a été utilisé. De façon intéressante, une augmentation de la prolifération cryptale et un allongement des cryptes ont été observés dans le côlon de souris Dusp6-/- comparé aux souris Dusp6+/+. Cette augmentation de la prolifération cryptale permet notamment un développement plus rapide d’organoïdes de côlon démontrant ainsi une meilleure capacité de régénération épithéliale. De plus, une augmentation du nombre de cellules caliciformes a été observée dans le côlon des souris invalidées pour Dusp6. Une augmentation du nombre de cellules de Paneth et des cellules intermédiaires Paneth/caliciformes a été aussi observée dans l’iléon des souris Dusp6-/-. Cette augmentation de la prolifération, de la différenciation des cellules à mucus et de la capacité de régénération protège l’épithélium colique d’un stress induit par un traitement au dextran sulfate (DSS). Pour étudier l’implication de la phosphatase DUSP6 dans la tumorigenèse colorectale, un modèle de souris ApcMin/+;Dusp6-/- a été généré. De façon intéressante, ces souris ont développé plus de polypes dans l’intestin grêle et dans le côlon que les souris ApcMin/+;Dusp6+/+. De plus, l’expression de DUSP6 en ARNm a été analysée dans des tumeurs colorectales humaines et pairées avec une marge saine. De manière intéressante, le niveau des transcrits de DUSP6 est diminué dans les tumeurs colorectales et ce, de façon plus prononcée dans les stades avancés. Finalement, le rôle de DUSP6 dans différents processus associés à la carcinogenèse a été étudié dans des cellules cancéreuses colorectales sous-exprimant DUSP6 grâce à un ARN interférant. Une augmentation de l’activité ERK1/2, de la capacité de croissance en indépendance d’ancrage et de la capacité invasive a été observée chez les cellules HT29 sous-exprimant DUSP6, mais pas chez les HCT116. En conclusion, DUSP6 est impliqué dans le maintien de l’homéostasie grâce à son contrôle de la prolifération cryptale et de la différenciation cellulaire. De plus, en inhibant l’activité ERK1/2, cette phosphatase régularise négativement la tumorigenèse intestinale. DUSP6 ERK/MAPK Cancer colorectal Inflammation intestinale Homéostasie intestinale
3	Unraveling development and ageing dynamics of the rodent dentition / Caractérisation de la dynamique du développement et du vieillissement de la denture des rongeurs Marangoni, Pauline 05 December 2014 (has links) L’évolution de la denture des vertébrés est un sujet majeur et des plus intéressants en biologie développementale évolutive (évo-dévo). Dans ce domaine, la souris Mus musculus est traditionnellement l’animal modèle utilisé. La denture de la souris inclus quatre incisives à croissance continue et douze molaires présentant une organisation caractéristique de leurs cuspides. Le réseau moléculaire régulant le développement de ces deux types de dents est très spécifique.La cascade ERK-MAPK est impliquée lors de différentes étapes du développement dentaire. Une étude comparée du phénotype des molaires de souris mutantes pour des gènes activés à différents points de la cascade a démontré l’existence d’un phénotype caractéristique, à savoir la présence d’une dent surnuméraire en position mésiale des rangées de molaires, ainsi que la présence d’anomalie dans le nombre et la forme de certaines cuspides. Parmi ces caractères présents chez les mutants, certains rappellent des caractères ancestraux présents uniquement chez des rongeurs fossiles. Ceci appuie le rôle que la cascade ERK-MAPK a pu jouer au cours de l’évolution de la denture chez les rongeurs. En travaillant sur une lignée transgénique sur-exprimant un inhibiteur de cette cascade, j’ai pu perfectionner notre connaissance du rôle des gènes de la famille Fgf dans les processus de mise en place des centres de signalisation dentaire et de minéralisation de l’émail.Si l’on considère les incisives à croissance continue, la denture de la souris est dynamique à l’échelle de la vie d’un individu. Réalisant un suivi des incisives supérieures d’une cohorte de souris au cours de leur vieillissement, j’ai pu préciser la chronologie d’apparition de défauts liés au vieillissement. Ces défauts apparaissent sur les incisives à partir de six mois, et le plus fréquent est le développement d’un sillon visible sur l’émail de l’incisive. J’ai enfin utilisé des techniques de séquençage de nouvelle génération (NGS) pour comprendre les bases moléculaires du vieillissement des niches de cellules souches des incisives. Ce faisant, j’ai détecté des changements dans les profils d’expression de gènes régulant le maintien des cellules souches, la prolifération cellulaire et le métabolisme. La présence d’un sillon apparaît corrélée à une forte réponse immunitaire détectée dans les tissus dentaires, ce qui constitue une perspective d’étude majeure dans le but d’achever la caractérisation du vieillissement des cellules souches dentaires. / The evolution of the vertebrate dentition is among the most exciting topics in the evo-devo field, with particular attention being drawn to the mouse model. The mouse dentition includes four ever-growing incisors and twelve molars with a specific cusp pattern. Incisors and molars develop according to a tightly regulated molecular network.The ERK-MAPK cascade is involved at various stages of tooth development. Molar tooth phenotype comparisons in mutant mice for genes acting at various levels of the cascade highlighted a dental phenotype signature, which consists in the presence of a supernumerary tooth and shared cusp pattern defects. Some of these recall characters present in fossil rodents, supporting the ERK-MAPK as a good candidate to explain some evolutionary trends of the rodent dentition. By working on a mouse line over-expressing one of this pathway inhibitor in the oral epithelium, I perfect our understanding of Fgf gene role in specifying signaling center formation at the right stage, and in achieving correct mineralization.When considering evergrowing incisors, mouse dentition is also dynamic at the lifetime scale. I monitored the ageing process of the mouse upper incisors, and provided a chronology of occurrence of the variety of age-related defects display. These defects are set up from the six months on, the most frequent abnormality being the presence of an enamel groove along the surface of the incisor. Using Next Generation Sequencing technologies, I detected transcriptomic changes in the stem cell niches affecting cell proliferation and metabolism, as well as the stem cell niche functioning. The correlation found between the groove occurrence and a large immune response in dental tissues expands our concern for dental stem cell ageing. Denture des rongeurs Voie de signalisation ERK-MAPK Anatomie dentaire comparée Incisives à croissance continue Niches de cellules souches Vieillissement Profil d’expression génique Rodent dentition ERK-MAPK pathway Comparative dental anatomy Incisor stem cell niches Ageing Gene expression profile
4	The Effects of HIV on the Regulation of IL-12 Family Cytokines, IL-12, IL-23, and IL-27 Production in Human Monocyte-derived Macrophages O'Hara, Shifawn R.K. 29 August 2012 (has links) IL-12 family cytokines IL-23 and IL-27 play an important role linking innate and adaptive immunity, and regulating T-cell responses. The production of IL-12, a structurally similar cytokine, is decreased in chronic HIV infection; therefore IL-23 and IL-27 may also be influenced by HIV infection. I hypothesized that HIV inhibits LPS-induced IL-23 and IL-27 production in human MDMs by suppressing the activation of signalling pathways regulating their expression. In vitro HIV-infection of MDMs did not have any effect on basal secretion of IL-23 or IL-27; however, HIV inhibited LPS-induced production of IL-12/23 p40 and IL-23 p19, and IL-27 EBI3 and IL-27 p28 mRNA expression, and IL-23, IL-12/23 p40 and IL-27 secretion. In order to evaluate the molecular mechanisms by which HIV inhibits IL-23 and IL-27 in LPS-stimulated MDMs, the signalling pathways regulating their expression were evaluated. The PI3K, p38 MAPK, and JNK MAPK pathways were found to positively regulate LPS-induced IL-27 secretion. Interestingly, in vitro HIV infection inhibited LPS-induced p38 and JNK MAPK activation in MDMs. In summary, I have shown that HIV inhibits IL-23 and IL-27 production in LPS-stimulated MDMs and that HIV may inhibit LPS-induced IL-27 production through the inhibition of p38 and JNK MAPK activation. It is currently unknown whether PKCs regulate LPS-induced IL-23 or IL-27 in human monocytes/macrophages. I demonstrated that classical PKCs differentially regulate LPS-induced IL-23 and IL-27 secretion within THP-1 cells, primary monocytes, and MDMs. Classical PKCs were found to positively regulate LPS-induced IL-12/23 p40 and IL-27 p28 mRNA expression and IL-12/23 p40, IL-23, and IL-27 secretion in primary human monocytes. Similarly, the classical PKCs were found to positively regulate IL-27 p28 mRNA expression and IL-27 secretion in THP-1 cells. However, classical PKCs did not regulate LPS-induced IL-27 production in MDMs, or LPS-induced IL-23 production in THP-1 cells. Overall, this demonstrates that classical PKCs differentially regulate LPS-induced IL-23 and IL-27 production in different myeloid cells. HIV monocyte macrophage cytokine IL-23 IL-27 IL-12 LPS signalling PI3K p38 MAPK JNK MAPK ERK MAPK PKC
5	The Effects of HIV on the Regulation of IL-12 Family Cytokines, IL-12, IL-23, and IL-27 Production in Human Monocyte-derived Macrophages O'Hara, Shifawn R.K. 29 August 2012 (has links) IL-12 family cytokines IL-23 and IL-27 play an important role linking innate and adaptive immunity, and regulating T-cell responses. The production of IL-12, a structurally similar cytokine, is decreased in chronic HIV infection; therefore IL-23 and IL-27 may also be influenced by HIV infection. I hypothesized that HIV inhibits LPS-induced IL-23 and IL-27 production in human MDMs by suppressing the activation of signalling pathways regulating their expression. In vitro HIV-infection of MDMs did not have any effect on basal secretion of IL-23 or IL-27; however, HIV inhibited LPS-induced production of IL-12/23 p40 and IL-23 p19, and IL-27 EBI3 and IL-27 p28 mRNA expression, and IL-23, IL-12/23 p40 and IL-27 secretion. In order to evaluate the molecular mechanisms by which HIV inhibits IL-23 and IL-27 in LPS-stimulated MDMs, the signalling pathways regulating their expression were evaluated. The PI3K, p38 MAPK, and JNK MAPK pathways were found to positively regulate LPS-induced IL-27 secretion. Interestingly, in vitro HIV infection inhibited LPS-induced p38 and JNK MAPK activation in MDMs. In summary, I have shown that HIV inhibits IL-23 and IL-27 production in LPS-stimulated MDMs and that HIV may inhibit LPS-induced IL-27 production through the inhibition of p38 and JNK MAPK activation. It is currently unknown whether PKCs regulate LPS-induced IL-23 or IL-27 in human monocytes/macrophages. I demonstrated that classical PKCs differentially regulate LPS-induced IL-23 and IL-27 secretion within THP-1 cells, primary monocytes, and MDMs. Classical PKCs were found to positively regulate LPS-induced IL-12/23 p40 and IL-27 p28 mRNA expression and IL-12/23 p40, IL-23, and IL-27 secretion in primary human monocytes. Similarly, the classical PKCs were found to positively regulate IL-27 p28 mRNA expression and IL-27 secretion in THP-1 cells. However, classical PKCs did not regulate LPS-induced IL-27 production in MDMs, or LPS-induced IL-23 production in THP-1 cells. Overall, this demonstrates that classical PKCs differentially regulate LPS-induced IL-23 and IL-27 production in different myeloid cells. HIV monocyte macrophage cytokine IL-23 IL-27 IL-12 LPS signalling PI3K p38 MAPK JNK MAPK ERK MAPK PKC
6	The Effects of HIV on the Regulation of IL-12 Family Cytokines, IL-12, IL-23, and IL-27 Production in Human Monocyte-derived Macrophages O'Hara, Shifawn R.K. January 2012 (has links) IL-12 family cytokines IL-23 and IL-27 play an important role linking innate and adaptive immunity, and regulating T-cell responses. The production of IL-12, a structurally similar cytokine, is decreased in chronic HIV infection; therefore IL-23 and IL-27 may also be influenced by HIV infection. I hypothesized that HIV inhibits LPS-induced IL-23 and IL-27 production in human MDMs by suppressing the activation of signalling pathways regulating their expression. In vitro HIV-infection of MDMs did not have any effect on basal secretion of IL-23 or IL-27; however, HIV inhibited LPS-induced production of IL-12/23 p40 and IL-23 p19, and IL-27 EBI3 and IL-27 p28 mRNA expression, and IL-23, IL-12/23 p40 and IL-27 secretion. In order to evaluate the molecular mechanisms by which HIV inhibits IL-23 and IL-27 in LPS-stimulated MDMs, the signalling pathways regulating their expression were evaluated. The PI3K, p38 MAPK, and JNK MAPK pathways were found to positively regulate LPS-induced IL-27 secretion. Interestingly, in vitro HIV infection inhibited LPS-induced p38 and JNK MAPK activation in MDMs. In summary, I have shown that HIV inhibits IL-23 and IL-27 production in LPS-stimulated MDMs and that HIV may inhibit LPS-induced IL-27 production through the inhibition of p38 and JNK MAPK activation. It is currently unknown whether PKCs regulate LPS-induced IL-23 or IL-27 in human monocytes/macrophages. I demonstrated that classical PKCs differentially regulate LPS-induced IL-23 and IL-27 secretion within THP-1 cells, primary monocytes, and MDMs. Classical PKCs were found to positively regulate LPS-induced IL-12/23 p40 and IL-27 p28 mRNA expression and IL-12/23 p40, IL-23, and IL-27 secretion in primary human monocytes. Similarly, the classical PKCs were found to positively regulate IL-27 p28 mRNA expression and IL-27 secretion in THP-1 cells. However, classical PKCs did not regulate LPS-induced IL-27 production in MDMs, or LPS-induced IL-23 production in THP-1 cells. Overall, this demonstrates that classical PKCs differentially regulate LPS-induced IL-23 and IL-27 production in different myeloid cells. HIV monocyte macrophage cytokine IL-23 IL-27 IL-12 LPS signalling PI3K p38 MAPK JNK MAPK ERK MAPK PKC
7	La production de l'anion superoxyde par l'angiotensine, l'endothéline et les voies de signalisation dépendantes de l'acide arachidonique dans les tissus vasculaires dans le développement de l'hypertension Laplante, Marc-André January 2007 (has links) Thèse numérisée par la Direction des bibliothèques de l'Université de Montréal. Muscles lisses Acide arachidonique Voie ERK-MAPK Acide docohexaénoïque Acide eicosapentaénoïque Apocynine NAD(P)H oxydase Lucigénine Lipoxygénase Stress oxydant Endothéline angiotensine
8	Evaluation of the consequences of ERK and STAT3 activation in the heart Badrian, Bahareh January 2006 (has links) [Truncated abstract] The enlargement of the heart, also known as myocardial hypertrophy, is thought to be a compensatory process that maintains the mechanical function of the heart in response to stress factors such as pressure or volume overload. Although this process is initially compensatory, it frequently results in heart failure and death. Cardiac hypertrophy is a complex process involving changes in the individual cardiac muscle cells, cardiac myocytes. As well as the morphological changes that result from hypertrophy, there are molecular changes within each cell that regulate the hypertrophic process. These molecular changes involve many different pathways within the cardiac myocytes and remain poorly understood . . . Both STAT3α and β overexpression resulted in the upregulation of the VEGF, MnSOD and SOCS-3 genes. This indicates that in the heart, STAT3β is able to activate the gene expression of these genes in a similar manner to STAT3α. However, STAT3α or β activation alone is not enough to induce cardiac hypertrophy. In conclusion, the results presented in this thesis determined a novel role for ERK in the induction of cell death in the heart and revealed many changes in cardiac gene expression following ERK activation. These genes may be the mediators of ERK responses and their identification provides valuable information and direction for further research in this area. One consequence of ERK activation was the negative regulation of the STAT3 pathway. Further investigation revealed for the first time that the STAT3 proteins themselves may not be involved in the induction of cardiac hypertrophy and that STAT3β, initially thought to be a transcriptional repressor, can induce the expression of genes that are known to be activated by STAT3α in the heart. Therefore, these results help to better understand the roles of these two signalling pathways in the heart. Cellular signal transduction Heart -- Dilatation Cells -- Effect of drugs on Heart failure Heart -- Hypertrophy Cardiac hypertrophy ERK MAPK signalling STAT3 signalling Microarray analysis
9	CHARACTERIZATION OF A POPULATION OF TUMOUR-INITIATING CELLS WITH STEM-LIKE PROPERTIES IN HUMAN PROSTATE CANCER Rybak, Adrian P. 19 September 2014 (has links) <p>There is increasing evidence that prostate tumours are organized as a hierarchy with rare cancer stem cells (CSCs) implicated in initiating and maintaining the tumour. However, prospective prostate cancer stem cells (PCSCs) have not been thoroughly characterized from primary tissue specimens. Using the DU145 cell line, PCSCs have been propagated as non-adherent spheres <em>in vitro</em>. Approximately 1.25% of monolayer DU145 cells formed primary spheres while 26% of sphere cells formed subsequent spheres; a measure of PCSC self-renewal capacity. Spheres are enriched for cells expressing prostate basal and luminal cytokeratins and CSC markers (CD44, CD24, integrin alpha2beta1). PCSCs initiate xenograft tumours with enhanced capacity compared to monolayer cells. While epidermal growth factor (EGF) promoted PCSC propagation, basic fibroblast growth factor (bFGF) inhibited these events. Activation of EGF receptor (EGFR) signalling, following EGF treatment or expression of constitutively-active EGFR (EGFRvIII), increased sphere formation. Conversely, attenuation of EGFR signalling inhibited PCSC self-renewal. Consistent with the MEK-ERK pathway being a major target of EGFR signalling, the MEK-ERK pathway contributes to EGFR-facilitated PCSC propagation. Inhibition of ERK activation following MEK inhibitor treatment, expression of dominant-negative MEK1(K97M), or knockdown of ERK1 or ERK2 reduced PCSC propagation. Therefore, EGFR signalling promotes PCSC self-renewal by activating the MEK-ERK pathway.</p> <p>SOX2 is an essential transcription factor for stem cells, however, its role in PCSCs remains unclear. SOX2 protein is upregulated in PCSCs propagated as spheres, and its expression is regulated by EGFR signalling. EGFR activation, following EGF treatment or expression of constitutively-active EGFRvIII, increased SOX2 expression and PCSC self-renewal, while being attenuated by EGFR inhibitor treatment. Ectopic SOX2 expression enhanced EGF-induced PCSC self-renewal, while SOX2 knockdown renders PCSCs non-responsive to EGF-induced self-renewal and reduced their anchorage-independent growth. Furthermore, SOX2 expression is associated with the ability of PCSCs to form aggressive xenograft tumours. Collectively, SOX2 regulates EGFR-mediated PCSC self-renewal.</p> / Doctor of Philosophy (PhD) Prostate cancer stem cell Self-renewal SOX2 EGFR MEK-ERK (MAPK) pathway PI3K-AKT signalling and PTEN Medical Molecular Biology Medical Molecular Biology
10	Rôles non-canoniques des arrestines dans la signalisation et l’endocytose des récepteurs couplés aux protéines G Paradis, Justine 04 1900 (has links) G protein-coupled receptors (GPCRs) form the biggest family of membrane receptors and are involved in numerous physiological processes. Collectively, these receptors are also prominently targeted by the pharmaceutical industry due to their implications in multiple diseases and disorders. GPCR signaling is tightly regulated. Several kinases, activated downstream of the receptor, initiate negative feedback loops; and arrestins play a crucial role in these regulatory processes by desensitizing the ligand–activated receptor and promoting its endocytosis. By doing so, arrestins control the duration and the amplitude of signal transduction at the cell surface. In the last few years, several non-canonical roles have also been attributed to arrestins, such as the post-endocytic activation of several signalling pathways, or the regulation of crosstalks between GPCRs and various other signalling events. My thesis project was aimed at providing a better understanding of the non-canonical functions of arrestins. The first objective of my research work was to investigate a possible reciprocal effect of the activation of the extracellular signal-regulated kinases 1 and 2 (ERK1/2) on GPCR signaling. We demonstrated that stimulation of ERK1/2, either by a cell surface receptor or a constitutively active mutant, leads to a reduction in steady-state expression levels of many GPCRs at the cell surface. This receptor redistribution mechanism is dependent on beta-arrestins phosphorylation. In vitro kinase assays combined with complementation experiments in mouse embryonic fibroblasts (MEFs) lacking beta-arrestins, revealed that beta-arrestin-2 phosphorylation on Ser14 and Thr276 is essential for the ERK1/2-promoted GPCR sequestration. This ERK1/2- and arrestins mediated regulatory process was found to result in a global dampening of cell responsiveness. The second objective of my research work was to identify and develop a small organic compound that inhibits the interaction between arrestins and the adaptor protein AP-2, without interfering with the recruitment of arrestin to the receptor. This inhibitor, named Barbadin, was found to specifically block endocytic processes that are dependent on the interaction between arrestins and the appendage domain of the b-subunit of AP-2. We demonstrated its value as an analytical tool in studying the role of the arrestins in GPCR signaling, such as cAMP production and ERK1/2 activation. These results support the concept that beta-arrestin/AP-2-dependent signaling is important to both G protein-dependent and -independent pathways. The third objective of my research work was to develop a BRET-based biosensor able to detect signal-dependent PTEN conformational changes. This biosensor was validated by monitoring PTEN activation induced by targeted mutations affecting key intramolecular interactions or by modulating signalling pathways that impact PTEN function. We also demonstrated the value of this biosensor in studying PTEN/protein interactions using two known interactors that activate PTEN, beta-arrestin-2 and RhoA. Finally, we uncovered PTEN activation by several GPCRs, previously unknown as PTEN regulators. Given the central role of the tumor suppressor PTEN in oncogenesis, this biosensor could also provide a precious tool for anti-cancer drug research. To conclude, my research work highlighted non-canonical mechanisms for arrestins to activate GPCR-dependent signaling pathways, such as cAMP, ERK1/2 and PTEN, as well as negatively regulate GPCR signaling upon phosphorylation by ERK1/2. This work was made possible by the development of new tools: a beta-arrestin inhibitor named Barbadin and a PTEN BRET-based biosensor that have both shown their usefulness in studying beta-arrestin noncanonical signaling. / Les récepteurs couplés aux protéines G (RCPG) représentent la plus grande famille de récepteurs membranaires et sont impliqués dans un grand nombre de processus physiologiques. Cette famille de récepteurs constitue aussi une cible majeure dans la recherche pharmaceutique au vu de son importance dans de nombreuses pathologies. La signalisation des RCPG est étroitement régulée. Plusieurs kinases activées en aval du récepteur initient des boucles de régulation négative. Les arrestines jouent un rôle clé dans ces processus de régulation en favorisant la désensibilisation du récepteur activé par le ligand, suivie de son endocytose. Ainsi, les arrestines contrôlent la durée et l’amplitude de la transmission du signal à la surface de la cellule. Ces dernières années, plusieurs rôles non-canoniques ont été attribués aux arrestines comme l’activation de voies de signalisation post-endocytiques, ou la modulation de la régulation croisée entre les RCPG et d’autres acteurs de la signalisation cellulaire. Le premier objectif de mon travail de recherche est d’examiner l’effet réciproque de l’activation des kinases ERK1/2 (extracellular signal-regulated kinases 1/2) sur la signalisation des RCPG. Nous avons démontré que la stimulation de ERK1/2, soit par un récepteur de surface soit par l’utilisation d’un mutant constitutivement actif, conduit à la baisse de l’expression de surface basale de nombreux RCPG. Des essais kinases in vitro, combinés à des expériences de complémentation dans des fibroblastes embryonnaires de souris (MEF), où les gènes beta-arrestine-1/2 ont été supprimés, démontrent l’importance de la phosphorylation par ERK1/2 des résidus Ser14 et Thr276 dans ce mécanisme de séquestration des RCPG. Cette régulation, contrôlée par ERK1/2 et arrestine, conduit à une baisse globale de la capacité de réponse de la cellule aux stimuli extracellulaires. Le deuxième objectif de mon travail de recherche est d’identifier et de développer une petite molécule organique qui inhibe l’interaction entre l’arrestine et la protéine adaptatrice du complexe d’endocytose AP-2, sans toutefois empêcher la formation du complexe arrestine/récepteur. Cet inhibiteur, nommé Barbadin, bloque sélectivement les processus d’internalisation dépendants de l’interaction entre arrestine- et la sous-unité beta2 de la protéine adaptatrice AP-2. Barbadin représente le premier inhibiteur des fonctions d’arrestine, et nous avons démontré son utilité comme outil analytique pour déterminer la contribution des arrestines dans l’activation de plusieurs voies de signalisation en aval des RCPG, telles que la production d’AMP cyclique (AMPc) ou l’activation des kinases ERK1/2. Nos résultats démontrent l’importance du complexe arrestine/AP-2 dans la signalisation dépendante et indépendante des protéines G. Le troisième objectif de mon travail de recherche est de développer un biosenseur BRET capable de mesurer les changements de conformation du suppresseur de tumeur PTEN. Nous avons validé ce biosenseur en mesurant l’activation de PTEN suite à des mutations ciblées déstabilisant les interactions intramoléculaires au sein de cette protéine ou en modulant différentes voies de signalisation qui affectent sa fonction. Nous avons démontré l’intérêt de ce nouvel outil dans l’étude des interactions entre PTEN et des partenaires protéiques, en utilisant deux interacteurs connus pour activer PTEN : b-arrestine-2 et RhoA. Finalement, en utilisant ce biosenseur, nous avons démontré pour la première fois la capacité de plusieurs RCPG à induire l’activation de PTEN. Étant donné le rôle central de PTEN dans le développement tumoral, ce biosenseur constitue aussi un outil précieux pour la recherche de nouveaux médicaments anticancer. Ainsi, au travers de ces trois lignes directrices, nous avons pu mettre en lumière de nouveaux rôles non-canoniques des arrestines, soit dans l’activation de voies de signalisation, (comme la production d’AMPc, l’activation de ERK1/2 ou de PTEN), soit comme régulateur négatif de la signalisation des RCPG après phosphorylation par ERK1/2. Ce travail a été rendu possible par le développement de nouveaux outils pour l’étude des RCPG : un inhibiteur de beta-arrestine, Barbadin, et un biosenseur BRET de PTEN ; tous deux ayant démontré leur utilité dans l’étude des voies de signalisation non-canoniques des arrestines. arrestine récepteurs couplés aux protéines G voie ERK/MAPK internalisation protéine adaptatrice AP-2 inhibiteur pharmacologique phosphatase et tensine homologue (PTEN) biosenseur Arrestin G protein-coupled receptor (GPCR) ERK/MAPK pathway Internalization Adaptor protein AP-2 Pharmacological inhibitor Phosphatase and tensin homolog (PTEN) Biosensor

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