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Structure function studies on prostanoid receptors: Thromboxane A2 receptor (TP) and Prostacyclin receptor (IP)Chakraborty, Raja January 2014 (has links)
Cell membrane receptors help to mediate communication between the cell and its environment. The largest group of these membrane receptors belong to the family of G protein-coupled receptors (GPCRs). GPCRs contain seven transmembrane (TM) helices and signal predominantly through heterotrimeric G proteins in response to diverse extracellular stimuli. Previously, three levels of amino acid conservation were proposed to understand the structure and function of a GPCR. This includes “signature” amino acids, “group –conserved” amino acids and amino acids conserved only within a specific subfamily. The group-conserved residues in class A GPCR family involve amino acid conservation of up to 99% when considered as a group of small and weakly polar residues (Ala, Gly, Ser, Cys and Thr). These group-conserved residues have been proposed as key determinants in helix-helix interactions. Therefore, I selected these residues for structure-function analysis in the amine and the prostanoid receptor sub-families of class A GPCRs. Molecular and biochemical assays clearly demonstrate the importance of group-conserved residues in β2-adrenergic receptor and thromboxane A2 receptor (TP) structure and function. These studies led to the identification of a non-synonymous single nucleotide polymorphic variant (nsSNP) A160T in TP to be a constitutively active mutant (CAM). Further, the TP-CAM was used as a pharmacological tool that enabled classification of well-known TP-blockers, into neutral antagonists and inverse agonists. The role of TP-A160T in prostanoid receptors, TP- Prostacyclin receptor (IP) heterodimerization and signaling was investigated. Activation of a GPCR ultimately leads to structural changes in its intracellular loops (ICLs), which in turn activates G-protein. TP activates its cognate G protein (Gαq), while IP mediates signaling, through Gαs. Using TP-IP chimeric receptors, molecular modelling, and site directed mutagenesis studies I determined the specific ICL regions required for G protein coupling in TP and IP. Significant challenges exist in expressing and purifying GPCR-CAMs in amounts required to pursue biophysical studies. Using tetracycline inducible HEK293S system, A160T was expressed at high-levels and CD spectropolarimetry studies were successfully pursued on the purified A160T. The CD spectra showed that the loss of thermal stability of the A160T mutant is due to the subtle changes in the secondary structure of the A160T protein. These studies involving molecular, biochemical and pharmacological approaches provide novel insights into the structure and function of prostanoid receptors TP and IP.
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Coopération privilégiée entre le microenvironnement stromal et les variants autonomes du récepteur des androgènes dans le cancer de la prostate / Specific cooperation between stromal microenvironment and constitutively active androgen receptor variants in prostate cancerAsmane, Irène 20 July 2015 (has links)
Malgré le rôle des variants constitutivement actifs du récepteur des androgènes (RA) et du stroma tumoral dans le cancer de la prostate résistant à la castration (CRPC), leurs relations restent inconnues. Nous rapportons l’impact de l’interleukine-6 (IL-6) sécrétée par les cellules stromales prostatiques (PrSC) sur les cellules épithéliales tumorales prostatiques exprimant les variants autonomes du RA. Le milieu de culture conditionné par les PrSC (CMPrSC) contenait des taux élevés d’IL-6 et induisait une augmentation de l’activité transcriptionnelle de STAT3 dans les LNCaP et C4-2b exprimant le variant RAQ640X, via une activation de pY705-STAT3. Cette activité de STAT3 était inhibée par la neutralisation de l’IL-6. L’analyse par mRNA array et RT-qPCR a mis en évidence un profil transcriptomique spécifique lié à l’expression du RAQ640X et à l’exposition au CMPrSC, impliquant les fonctions de motilité, d’invasion et de migration cellulaires, et l’expression de gènes favorisant la dissémination métastatique. Ainsi, nos résultats illustrent une coopération épithélio-stromale «privilégiée» en présence de variants autonomes du RA, impliquée dans la progression tumorale. / Constitutively active androgen receptor (AR) variants and stromal microenvironment are involved in castration resistant prostate cancer (CRPC), but their relationship remains unknown. We describe the effects of interleukin-6 (IL6) secreted from prostate stromal fibroblast cells (PrSC) towards prostate epithelial cancer cells expressing constitutively active AR variants. Conditioned culture medium from PrSC (CMPrSC) contained high levels of IL-6 and led to an increased STAT3 transcriptional activity in LNCaP and C4-2b cells expressing the ARQ640X variant, through pY705-STAT3 activation. This STAT3 activity was significantly diminished with neutralizing antibody anti-IL6. Gene expression analysis using mRNA array and RT-qPCR highlighted a specific transcriptional profile related to ARQ640X expression and PrSC exposure, resulting in cellular motility, invasion and cellular migration, and IL-6 genes expression promoting metastatic dissemination. Overall, our data emphasize a “preferred” epithelio-stromal cooperation when expressing constitutive active RA variants, which contributes to tumor progression.
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Rôle du récepteur des androgènes dans les communications cellulaires au sein du cancer de la prostate / Role of androgen receptor in cellular communications in prostate cancerSchreyer, Edwige 12 October 2018 (has links)
La castration représente le traitement de référence du cancer de la prostate à un stade avancé. Cependant, la plupart des patients rechute du fait notamment de l’émergence de variants tronqués constitutivement actifs du récepteur des androgènes (RA). Le microenvironnement tumoral, en particulier les fibroblastes associés au cancer (CAFs), favorisent largement la progression tumorale. Ils sont très hétérogènes et dérivent de plusieurs types cellulaires dont les cellules souches mésenchymateuses (MSCs). Afin de mettre à jour l’impact des variants du RA sur le microenvironnement tumoral, mon projet de thèse a porté sur l’étude des effets de ces variants du RA sur la différenciation des MSCs en CAFs. Les résultats obtenus m’ont permis de démontrer un impact positif du variant RA Q641X sur l’expression du facteur de différenciation VEGF par les cellules tumorales, ainsi que sur l’expression des marqueurs de différenciation en CAFs FSP-1, CXCL12, PDGFR-β, ainsi que VEGF, au niveau des MSCs. Ces données suggèrent que le variant RA Q641X est capable d’induire la différenciation des MSCs en CAFs, soulignant ainsi l’importance de développer de nouvelles stratégies thérapeutiques ciblant ces variants du RA. / Androgen ablation therapy remains the most common treatment for patients with advanced prostate cancer. However, most patients will relapse due to the emergence of truncated constitutively active androgen receptor (AR) variants. The tumor microenvironment is another necessary feature driving prostate cancer progression. Cancer associated fibroblasts (CAFs) are the major specialized stromal cells that favor tumor progression. These cells are very heterogeneous and derive from several other cell types as mesenchymal stem cells (MSCs). In order to highlight the impact of AR variants on surrounding tumor stroma, the aim of my project was to investigate the effects of these AR variants on MSCs differentiation into CAFs. I noticed that the expression of VEGF, a CAF differentiation factor, was upregulated in tumor cells expressing AR Q641X variant. Similarly, the expression of CAF differentiation markers FSP-1, CXCL12, PDGFR-β, and VEGF was enhanced in MSCs in presence of AR Q641X variant. These data highlight an unknown property of AR Q641X variant in prostate tumor cells that is its ability to induce MSCs differentiation into CAFs, underlining the urgent need to develop novel strategies targeting these AR variants.
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Impact des altérations du récepteur des androgènes sur les voies de signalisation liées à la différenciation cellulaire et à la progression du cancer de la prostate / Impact of constitutively active androgen receptor variants on prostate cancer progressionCottard, Félicie 22 September 2015 (has links)
La voie de signalisation du récepteur des androgènes (RA) est la principale cible thérapeutique des cancers de la prostate métastatiques. Toutefois, l'émergence de variants constitutivement actifs du RA dépourvus de leur partie C-terminale conduit à une résistance au traitement. Pendant ma thèse, j'ai montré que les variants du RA induisent une transition épithélio-mésenchymateuse (EMT) partielle, un phénomène observé lors de la progression tumorale. J'ai ensuite étudié les mécanismes conduisant à cette expression différentielle de marqueurs de l’EMT en me focalisant sur la N-cadhérine (CDH2). Le RA entier (AR-FL) et les variants du RA interagissent tous les deux au niveau des éléments de réponse aux androgènes dans l'intron1 de CDH2. Cependant, une augmentation du niveau d’acétylation des histones est observée uniquement avec les variants du RA. Mes données nous mène à un modèle où l'AR-FL réprimerait l'expression de CDH2 alors que les variants du RA induiraient son expression. / Androgen receptor (AR) pathway is the main therapeutic target for metastatic prostate cancer (Pca).However, the expression of AR variants lacking the carboxy-terminal end lowers therapy efficacy. During myphD, I showed that AR variants induce a partial epithelial-mesenchymal transition (EMT), a phenomenon observed during tumor progression. To understand the mode of action of AR variants, I explored the mechanisms leading to this differential expression of EMT markers focusing my research on N-cadherin(CDH2). While both the full length AR (AR-FL) and AR variants could interact with androgen response elements present in intron 1 of CDH2, I highlighted that they had opposite effects concerning histone modifications. Indeed, increased histone acetylation in this genomic region was observed only in the presence of AR variants. My data lead us to propose a model in which AR-FL represses CDH2 gene, while AR variants favor its expression.
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