Global ETD Search

11	Zur Rolle von N-Cadherin in der Proliferation, Migration und Invasion maligner Keimzelltumoren des Hodens / Role of N-cadherin in proliferation, migration, and invasion of germ cell tumours. Schallenberg, Simon 12 December 2019 (has links) No description available. 610 Keimzelltumorzelllinien Keimzelltumoren Cisplatin-Resistenz Migration Invasion Proliferation N-Cadherin GCT-cell lines germ cell tumours cisplatin resistance migration invasion proliferation N-cadherin
12	Mécanismes moléculaires de la stabilisation synaptique des récepteurs du glutamate de type kaïnate dans les cellules pyramidales de CA3 / Molecular mechanisms for the synaptic stabilization of kainate receptors in CA3 pyramidal cells Fievre, Sabine 19 November 2015 (has links) Les récepteurs ionotropiques du glutamate peuvent être compartimentés de manière très spécifique au niveau des différentes afférences synaptiques d’un neurone. Dans les neurones pyramidaux de CA3, les récepteurs de type kaïnate (rKA) post-synaptiques sont localisés à la synapse formée entre les fibres moussues et les cellules pyramidales de CA3 (synapse FM-CA3) mais ils sont totalement absents des autres afférences glutamatergiques sur ce même neurone. Nous avons cherché à comprendre les mécanismes moléculaires de cette compartimentation subcellulaire. En réalisant une cartographie fonctionnelle des récepteurs du glutamate par décageage focalisé de glutamate dans les cellules pyramidales de CA3, nous avons montré que les rKA présentent une localisation subcellulaire strictement confinée dans les excroissances épineuses, éléments post-synaptiques des synapses FM-CA3, et sont exclus des compartiments somato-dendritiques, contrairement aux récepteurs AMPA. Nous avons identifié une séquence du domaine C-terminal de GluK2a nécessaire pour la stabilisation des rKA. Cette séquence est responsable d’une interaction avec la protéine d’adhérence N-cadhérine. L’altération de la fonction de la N-cadhérine dans les cellules pyramidales de CA3 entraine une déstabilisation des rKA à la synapse FM-CA3. Ces travaux suggèrent que plusieurs mécanismes participent à la compartimentation des rKA à la synapse FMCA3 impliquant le recrutement et la stabilisation des rKA par les N-cadhérines. / Distinct subtypes of ionotropic glutamate receptors can be segregate to specific synaptic inputs in a given neuron. In CA3 pyramidal cells (PCs), kainate receptors (KARs) are present at mossy fiber (mf) synapses and absent from other glutamatergic inputs. The mechanisms for such a constrained subcellular segregation is not known. We have investigated the molecular determinants responsible for the subcellular segregation of KARs at mf-CA3 synapses. Using functional mapping of glutamate receptors by focal glutamate uncaging we show that KARs display a strictly confined expression on thorny excrescences, the postsynaptic elements of mf-CA3 synapses, being excluded from extrasynaptic somatodendritic compartments, at variance with AMPA receptors. We have identified a sequence in the GluK2a C-terminal domain necessary for restricted expression of KARs which is responsible for GluK2a interaction with N-Cadherin. Targeted deletion of N-Cadherin or overexpression of a dominant negative N-Cadherin in CA3 PCs greatly induce a destabilization of KARs at the mf-CA3 synapses. Our findings suggest that multiple mechanisms combine to control the compartmentalization of KARs at mf-CA3 synapses, including a stringent control of the amount of GluK2 subunit in CA3 PCs, a limited number of slots for KARs, and the recruitment/stabilization of KARs by N-Cadherins. Spécification synaptique Ségrégation subcellulaire Récepteur kaïnate CA3 N-cadhérine Synapse specification Subcellular segregation Kainate receptors CA3 N-Cadherin
13	Untersuchung des Connexin 43 und N-Cadherin bei Patienten mit Fallot’scher Tetralogie und Double Outlet Right Ventricle vom Fallot-Typ Haunschild, Josephina 21 October 2014 (has links) In der vorliegenden Arbeit wurden Myokardproben des rechtsventrikulären Ausflusstraktes von Patienten mit Fallot’scher Tetralogie sowie Double Outlet Right Ventricle vom Fallot - Typ untersucht. Hintergrund der Studie waren Untersuchungen anderer Autoren an Cx43 - knock - out Mäusen, die dort Veränderungen des kardialen Phänotyps beschrieben, die sie als Fallot - artig interpretierten. Daraus wurde die Hypothese entwickelt, dass Änderungen auf der Ebene des Connexin 43 ursächlich mit der Fallot’schen Tetralogie verbunden sein könnten. Es erfolgte eine histologische Analyse von 25 Patientenproben im Hinblick auf die Lokalisation von Connexin 43 sowie N - Cadherin. Es zeigte sich eine altersabhängige Verteilung von Connexin 43 und N - Cadherin. Insbesondere Patienten der Gruppe 1 (jünger als zwei Jahre) zeigten eine Verteilung sowohl an der lateralen Zellseite, als auch am Pol der Kardiomyozyten. Mit zunehmendem Alter beschränkten sich sowohl Connexin 43 als auch N - Cadherin auf die Disci intercalares zwischen den Kardiomyozyten und befanden sich dort in enger Nachbarschaft zueinander. Des Weiteren erfolgte eine Analyse der codierenden Region des Connexin 43 Gens mittels High Resolution Melting - PCR und sich daran anschließender Sequenzierung. Es zeigten sich sowohl bei den Kontrollen als auch den Patienten bereits bekannte Single Nucleotide Polymorphismen sowie bis dato unbekannte Sequenzvariationen. Allerdings wurden keine homozygoten Veränderungen der DNA festgestellt. Auch fand sich keine der heterozygoten Veränderungen in allen untersuchten Patienten. Somit ist es unwahrscheinlich, dass ein einzelner Basenaustausch zum komplexen Krankheitsbild der Fallot’schen Tetralogie beziehungsweise zum Double Outlet Right Ventricle vom Fallot - Typ führt. info:eu-repo/classification/ddc/610 ddc:610 tetralogy of fallot, connexin 43
14	Avaliação de marcadores relacionados à transição epitélio-mesênquima na endometriose pélvica / Evaluation of markers related to epithelial-mesenchymal transition in the patients with pelvic endometriosis Poppe, Ana Carolina Machado 10 December 2013 (has links) Introdução: A endometriose é uma doença ginecológica comum caracterizada pela presença de estroma e/ou glândula endometrial fora da cavidade uterina, e que não possui sua etiopatogenia bem estabelecida. A transição epitélio-mesênquima (TEM) é um processo que consiste em uma série de mudanças no fenótipo de células epiteliais que fazem com que estas células assumam características de células mesenquimais. Assim como observado na TEM, as células endometriais no contexto da endometriose apresentam capacidade migratória, invasibilidade e elevada resistência à apoptose. As moléculas de adesão têm adquirido crescente relevância na TEM, pois relacionam-se à perda de adesão célula-célula com o aumento da invasão e metástase. O objetivo deste estudo foi investigar a expressão de marcadores relacionados com a TEM na endometriose superficial, ovariana e profunda. Pacientes e Métodos: Foram selecionadas 103 mulheres que preenchiam os critérios de inclusão estabelecidos, constituindo 2 grupos de estudo independentes entre si: 18 mulheres com endometriose peritoneal, ovariana e profunda concomitantes; 85 mulheres com endometriose ovariana e/ou profunda, dividido em 44 mulheres com endometriose ovariana e 41 com endometriose intestinal. Através de reações de imunoistoquímica, a expressão proteica dos marcadores e-caderina, n-caderina, betacatenina, receptor de estrogênio e receptor de progesterona foram avaliados nos tecidos de interesse em cada grupo de estudo. Além dos locais de doença, as mulheres foram avaliadas quanto à relação com a fase do ciclo e à classificação histológica da doença. Resultados: As lesões de endometriose de ovário mostraram uma menor expressão de n-caderina em comparação às lesões de intestino e peritônio (p=0,032). O receptor de estrogênio e receptor de progesterona se mostraram significativamente menos expressos no componente epitelial da doença de ovário do que no epitélio da endometriose de peritônio e intestino (p=0,002; p=0,48). A expressão da n-caderina apresentou uma correlação direta com a expressão do receptor de estrogênio no estroma da endometriose de intestino (p=0,036). Conclusão: Estes resultados sugerem que a transição epitélio-mesênquima esteja envolvida na etiopatogenia da endometriose, demonstrando que a doença de ovário se comporta de maneira diferente da doença superficial e da doença infiltrativa profunda, sendo a n-caderina um importante fator envolvido neste processo possivelmente influenciada pela ação do estrogênio / Background: Endometriosis is a common gynecological disease defined as the presence of ectopic endometrial glands and stroma outside the uterine cavity, and its pathogenesis is not well established. The epithelial to mesenchymal transition (EMT) is a process consisting of a series of changes in the phenotype of epithelial cells that make these cells assume the characteristics of mesenchymal cells. As observed in the EMT, endometrial cells in the context of endometriosis have the capacity of migration, invasiveness and high resistance to apoptosis. . The adhesion molecules have become progressively relevant in EMT, in view of the cell-to-cell adhesion loss, with increased invasion and metastasis. The goal of this study was to investigate the expression of markers related to EMT in superficial, ovarian and deep endometriosis. Patients and Methods: 103 women were selected who met the inclusion criteria, constituting two independent study groups: 18 women with peritoneal, ovarian and deep concomitant endometriosis, 85 women with ovarian and / or deep endometriosis, divided in 44 women with ovarian endometriosis and 41 with intestinal endometriosis. Through immunohistochemical reactions, the protein expression of e-cadherin, ncadherin, beta-catenin, estrogen receptor and progesterone receptor markers were evaluated in tissues of interest in each study group. In addition to the sites of the disease, menstrual phase and histological classification (well-differentiated, undifferentiated, mixed pattern and stromal) of the disease were recorded. Results: The ovarian endometrisis showed less n-cadherin marker than lesions of the peritoneum and bowel (p=0,032). Ovarian endometriosis also showed markedly decreased expression of estrogen and progesterone receptors in epithelial cells, compared with peritoneal and deep endometriosis (p=0,002; p=0,48). The expression of N-cadherin showed a direct correlation with estrogen receptor expression in the stroma of bowel endometriosis (p = 0.036). Conclusion: These results suggest that epithelial to mesenchymal transition involved in the pathogenesis of endometriosis, demonstrating that the ovary disease behaves differently disease than peritoneal and deep disease, so that the n-cadherin is an important factor involved in this process, possibly influenced by the action of estrogen beta-catenin Beta-catenina E-caderinas E-cadherin Endometriose Endometriosis Epithelial-mesenchymal transition Estrogen receptor N-caderinas N-cadherin Progesterone receptor Receptores de progesterona Receptores estrogênicos Transição epitélial-mesenquimal
15	Avaliação de marcadores relacionados à transição epitélio-mesênquima na endometriose pélvica / Evaluation of markers related to epithelial-mesenchymal transition in the patients with pelvic endometriosis Ana Carolina Machado Poppe 10 December 2013 (has links) Introdução: A endometriose é uma doença ginecológica comum caracterizada pela presença de estroma e/ou glândula endometrial fora da cavidade uterina, e que não possui sua etiopatogenia bem estabelecida. A transição epitélio-mesênquima (TEM) é um processo que consiste em uma série de mudanças no fenótipo de células epiteliais que fazem com que estas células assumam características de células mesenquimais. Assim como observado na TEM, as células endometriais no contexto da endometriose apresentam capacidade migratória, invasibilidade e elevada resistência à apoptose. As moléculas de adesão têm adquirido crescente relevância na TEM, pois relacionam-se à perda de adesão célula-célula com o aumento da invasão e metástase. O objetivo deste estudo foi investigar a expressão de marcadores relacionados com a TEM na endometriose superficial, ovariana e profunda. Pacientes e Métodos: Foram selecionadas 103 mulheres que preenchiam os critérios de inclusão estabelecidos, constituindo 2 grupos de estudo independentes entre si: 18 mulheres com endometriose peritoneal, ovariana e profunda concomitantes; 85 mulheres com endometriose ovariana e/ou profunda, dividido em 44 mulheres com endometriose ovariana e 41 com endometriose intestinal. Através de reações de imunoistoquímica, a expressão proteica dos marcadores e-caderina, n-caderina, betacatenina, receptor de estrogênio e receptor de progesterona foram avaliados nos tecidos de interesse em cada grupo de estudo. Além dos locais de doença, as mulheres foram avaliadas quanto à relação com a fase do ciclo e à classificação histológica da doença. Resultados: As lesões de endometriose de ovário mostraram uma menor expressão de n-caderina em comparação às lesões de intestino e peritônio (p=0,032). O receptor de estrogênio e receptor de progesterona se mostraram significativamente menos expressos no componente epitelial da doença de ovário do que no epitélio da endometriose de peritônio e intestino (p=0,002; p=0,48). A expressão da n-caderina apresentou uma correlação direta com a expressão do receptor de estrogênio no estroma da endometriose de intestino (p=0,036). Conclusão: Estes resultados sugerem que a transição epitélio-mesênquima esteja envolvida na etiopatogenia da endometriose, demonstrando que a doença de ovário se comporta de maneira diferente da doença superficial e da doença infiltrativa profunda, sendo a n-caderina um importante fator envolvido neste processo possivelmente influenciada pela ação do estrogênio / Background: Endometriosis is a common gynecological disease defined as the presence of ectopic endometrial glands and stroma outside the uterine cavity, and its pathogenesis is not well established. The epithelial to mesenchymal transition (EMT) is a process consisting of a series of changes in the phenotype of epithelial cells that make these cells assume the characteristics of mesenchymal cells. As observed in the EMT, endometrial cells in the context of endometriosis have the capacity of migration, invasiveness and high resistance to apoptosis. . The adhesion molecules have become progressively relevant in EMT, in view of the cell-to-cell adhesion loss, with increased invasion and metastasis. The goal of this study was to investigate the expression of markers related to EMT in superficial, ovarian and deep endometriosis. Patients and Methods: 103 women were selected who met the inclusion criteria, constituting two independent study groups: 18 women with peritoneal, ovarian and deep concomitant endometriosis, 85 women with ovarian and / or deep endometriosis, divided in 44 women with ovarian endometriosis and 41 with intestinal endometriosis. Through immunohistochemical reactions, the protein expression of e-cadherin, ncadherin, beta-catenin, estrogen receptor and progesterone receptor markers were evaluated in tissues of interest in each study group. In addition to the sites of the disease, menstrual phase and histological classification (well-differentiated, undifferentiated, mixed pattern and stromal) of the disease were recorded. Results: The ovarian endometrisis showed less n-cadherin marker than lesions of the peritoneum and bowel (p=0,032). Ovarian endometriosis also showed markedly decreased expression of estrogen and progesterone receptors in epithelial cells, compared with peritoneal and deep endometriosis (p=0,002; p=0,48). The expression of N-cadherin showed a direct correlation with estrogen receptor expression in the stroma of bowel endometriosis (p = 0.036). Conclusion: These results suggest that epithelial to mesenchymal transition involved in the pathogenesis of endometriosis, demonstrating that the ovary disease behaves differently disease than peritoneal and deep disease, so that the n-cadherin is an important factor involved in this process, possibly influenced by the action of estrogen Beta-catenina E-caderinas Endometriose N-caderinas Receptores de progesterona Receptores estrogênicos Transição epitélial-mesenquimal beta-catenin E-cadherin Endometriosis Epithelial-mesenchymal transition Estrogen receptor N-cadherin Progesterone receptor
16	Caractérisation des fonctions génomiques de variants du récepteur des androgènes dans le cancer de la prostate / Transcriptional activities of androgen receptor variants in prostate cancer Ould Madi-Berthelemy, Pauline 25 September 2018 (has links) Le récepteur des androgènes (RA) est la principale cible thérapeutique du cancer de la prostate (CaP) métastatique. Bien que cette thérapie soit initialement efficace, les effets sont transitoires. De nombreux mécanismes peuvent expliquer la progression du CaP vers un stade de résistance à la castration, telles les modifications du RA. Des données récentes ont montré que les variants constitutifs RA-Q641X et RA-V7, caractérisés par la perte du domaine de liaison au ligand, étaient associés à l’expression de marqueurs mésenchymateux. L’étude de la régulation de la N-cadhérine a mis en évidence que si le RA sauvage et les variants constitutifs se liaient tous deux aux éléments de réponse du gène codant, seuls les derniers étaient associés à une augmentation de l’acétylation de l’histone H4, marque positive de la transcription. Le RNA-seq a révélé que leur expression était aussi corrélée à la régulation de sets de gènes spécifiques incluant des facteurs de transcription dont certains ont déjà été caractérisés en cancérologie.En ce qui concerne le RA-T576A, porteur d’une mutation faux-sens, les données ont révélé une séquence consensus de liaison à l’ADN moins conservée pour le RA sauvage que pour ce mutant et l’importance du 11ème nucléotide des éléments de réponse. De plus, cette mutation a semblé impacter le transcriptome du RA. Ce travail met en évidence le comportement distinct des variants du RA et aide à mieux comprendre leurs modes d’action en décrivant leurs activités transcriptionnelles. / The androgen receptor (AR) is the main therapeutic target in metastatic prostate cancer (PCa). Although this therapy is initially effective, the effects are transient. Many mechanisms can explain PCa progression toward castration resistance including abnormalities in the AR. Recent data have shown that constitutive AR (e.g AR-Q641X and AR-V7), which have lost the ligand binding domain, were associated with the induction of mesenchymal marker expression. The study of N-cadherin regulation highlighted that while both constitutive AR and wild type AR bound to response elements located in the encoding gene, only the AR variants were associated with an increase of H4 acetylation, a positive transcription mark. RNA-seq revealed that their expression was also correlated to specific sets of genes regulation, including transcription factors and genes involved in migration, AR regulation, and therapeutic resistance.Concerning AR-T576A, which hold a missense mutation, data revealed a less conserved consensus sequence for the wild type AR than for this mutant and highlighted the importance of the 11th nucleotide of the response element for AR recruitment to DNA. Plus, this mutation seemed to impair AR transcriptome. This work highlights the distinct AR variants’ behavior and helps to understand their mode of action by depicting their transcriptional landscapes. Cancer de la prostate Variants du récepteur des androgènes N-cadhérine Activité transcriptionnelle Liaison à l’ADN Prostate cancer Androgen receptor variants N-cadherin Transcriptional landscape DNA binding 572.8 616.99
17	Wnt-11 signalling, its role in cardiogenesis and identification of Wnt/β-catenin pathway target genes Railo, A. (Antti) 30 March 2010 (has links) Abstract Wnt genes encode secreted signalling molecules that control embryonic development including organogenesis, while dysregulated Wnt signalling is connected to many diseases such as cancer. Specifically, Wnts control a number of cellular processes such as proliferation, adhesion, differentiation and aging. Many Wnt proteins activate the canonical β-catenin signalling pathway that regulates transcription of a still poorly characterized set of target genes. Wnts also transduce their signaling in cells via β-catenin-independent “non-canonical” pathways, which are not well understood. In this study, Wnt-11 signalling mechanisms in a mammalian model cell line and roles of Wnt-11 in heart development were analyzed in detail. In addition the aim was to identify new Wnt target genes by direct chromatin immunoprecipitation and Affymetrix GeneChip assays in the model cells exposed to Wnt-3a. Our studies reveal that Wnt-11 signalling coordinates the activity of key cell signalling pathways, namely the canonical Wnt/β-catenin, the JNK/AP-1, the NF-κB and PI3K/Akt pathways in the CHO cells. Analysis of the Wnt-11-deficient embryos revealed a crucial role in heart organogenesis. Wnt-11 signalling coordinates cell interactions during assembly of the myocardial wall and Wnt-11 localizes the expression of N-cadherin and β-catenin to specific cellular domains in the embryonic ventricular cardiomyocytes. Collectively these studies reveal that the mammalian Wnt-11 behaves as a non-canonical Wnt and that it is a critical factor in the coordination of heart development. Specifically, it controls components of the cell adhesion machinery. Analysis of the Wnt target genes revealed a highly context-dependent profile in the Wnt-regulated genes. Several new putative target genes were discovered. Out of the candidate Wnt target genes, Disabled-2 was identified as a potential new direct target for Wnt signalling. AP-1 JNK N-cadherin NF-κB TCF Wnt signalling Wnt-11 cardiogenesis cell adhesion cell viability chromatin immunoprecipitation target gene β-catenin
18	Mort cellulaire et modulation du clivage de la cadhérine N par un agoniste de PPARβ/δ dans un modèle de cancer de la vessie / Cell death and modulation ofN-cadherin cleavage by a PPARβ/δ agonist in bladder cancer mode! Pechery, Adeline 12 October 2016 (has links) Le cancer de la vessie est le deuxième cancer urologique après le cancer de la prostate. Le développement de nouveaux agents anticancéreux est nécessaire pour le traitement de cette maladie complexe, car, en dépit d'un large éventail de traitements, aucune augmentation de la survie des patients n'a été observée. - Les effets du GW501516, un agoniste de PPARbeta/delta, n'ont jamais été explorés dans des cellules cancéreuses de la vessie. Nous montrons qu'un traitement par 25 µM de GW501516, pendant 24 h, induit la mort cellulaire par apoptose de cellules dérivées d'un carcinome urothélial invasif mais pas de cellules dérivées d'un cancer urothélial "de bon pronostic". Une stimulation de courte durée par 25 µM de GW501516 induit une augmentation du taux d'espèces réactives de l'oxygène (ROS) qui est associée à une phosphorylation de la protéine de survie Akt. L'apoptose induite par le GW501516 est concomitante à une diminution de l'expression d'une molécule d'adhérence, la cadhérine N qui est une protéine transmembranaire impliquée dans la progression tumorale. Pour la première fois dans un modèle de carcinome, nous montrons que la cadhérine N est la cible d'un clivage protéolytique, libérant des fragments solubles qui peuvent être biologiquement actifs. Le GW501516 module ce clivage à des temps qui précèdent la mort cellulaire. En effet, le GW501516 régule l'expression de protéases telles que ADAMIO à l'origine du clivage de la cadhérine N. - Les fragments de la cadhérine N pourraient intervenir dans les processus de survie ou de mort cellulaires. Par conséquent, cette étude novatrice ouvre le débat quant à la portée thérapeutique du GW501516 dans le traitement du cancer. / Bladder cancer is the most common cancer of the genitourinary tract worldwide and accounts for 5% of ail cancer deaths in human. Despite of a wide range of treatments, no substantial improvement in survival of patients with advanced-stage or metastatic disease has been achieved. The development of nove! effective chemotherapeutic agents is required for the treatment ofthis aggressive disease. Anticancer action of GW501516, an agonist of PPARbeta/delta, has never been investigated in bladder tumor cells. Our results indicated that a 24h treatment by 25 µM of GW501516 induced cell death through both extrinsic and intrinsic apoptotic pathways in T24 cells, derived from an undifferentiated high grade carcinoma but not in RT4 cells, derived from a low grade papillary tumor. GW501516 induced also an early up-regulation of ROS production which was associated with an increase ofphosphorylated Akt level, implicated in cell survival. Apoptosis induced by GW501516 is concomitant with a decrease of N-cadherin expression which is a cell adhesion molecule implicated in tumor progression. For the first time in carcinoma mode!, we showed that N-cadherin was cleaved by proteases, leading to the release of soluble fragments which could be biologically active. Our results indicated that GW501516 modulates N-cadherin cleavage before cell death through the regulation of protease expression such as ADAM l O. N-cadherin fragments could be implicated in cell survival or cell death. By inducing apoptosis of urothelial cancer ce lis and by modulating N-cadherin shedding, GW501516 could be a potential efficient chemotherapeutic drug for bladder cancer through endovesical instillations. Cancer de la vessie PPARbeta/delta GW501516 Apoptose Stress oxydant Akt Cadhérinc N ADAMIO Bladder cancer PPARbeta/dclta GW501516 Apoptosis Oxidative stress Akt N-cadherin ADAMIO 616.9
19	Rôle de l’organisation du cytosquelette d’actine branché et des adhésions N-cadhérine dans la dynamique des épines dendritiques / Role of branched actin network organization and N-cadherin in dendritic in dendritic spine dynamics Chazeau, Anael 04 December 2012 (has links) Les épines dendritiques sont de petites protrusions post-synaptiques présentant des changements morphologiques corrélés avec la plasticité synaptique. Elles ont pour origine les filopodes dendritiques qui s’élargissent lors du contact avec l’axone. Ces changements morphologiques impliquent une grande variété de molécules dont des protéines associées à l’actine et des protéines d’adhésion. Cependant, comment ces différentes protéines sont coordonnées dans le temps et l’espace est encore largement méconnu. De plus, les techniques de microscopie conventionnelle ne permettent pas d’étudier l’organisation et la dynamique de ces protéines dans les épines dont la taille est proche de la limite de resolution. L’objectif de ma thèse a donc été d’explorer le rôle des protéines associées à l’actine ainsi que celui des protéines d’adhésion N-cadhérines dans l’organisation et la dynamique du cytosquelette d’actine des épines dendritiques. Dans une première étude, nous avons suivi la motilité des filopodes et épines dendritiques de neurones en visualisant l’actine-GFP. Nous avons couplé cette approche avec : 1) une technique de piégeage optique de microsphères recouvertes de N-cadhérines ou des substrats micro-imprimés également recouverts de N-cadhérines afin de contrôler temporellement et spatialement les adhésions cadhérine-cadhérine, 2) la stimulation pharmacologique de la myosine II afin d’induire la contraction F-actine/myosine et 3) l’expression de mutants de N-cadhérine non adhésifs. Nous avons ainsi démontré que la stabilisation des filopodes en épines était dépendante de l’engagement d’un embrayage moléculaire entre les adhésions trans-synaptiques N-cadhérine et le flux rétrograde d’actine généré par les myosines II. Dans une deuxième étude, nous avons utilisé la microscopie super-résolutive (PALM et dSTORM) et le suivi de protéines individuelles (sptPALM) pour étudier l’organisation et la dynamique à l’échelle nanométrique des protéines à l’origine des réseaux d’actine branchés dans les épines. Ainsi, nous avons caractérisé la localisation et la dynamique de l’actine, du complexe Arp2/3, du complexe WAVE, d’IRSp53, de VASP et de Rac-1. Nous avons montré que, contrairement aux structures motiles classiques comme lamellipode, le réseau d’actine branché dans les épines n’ést pas formé aux extrémités protrusives puis incorporé dans un flux rétrograde d’actine. Ce réseau est initié à la PSD puis croît vers l’extérieur afin de générer les protrusions membranaires responsablent des changements morphologiques de l’épine. Nos résultats montrent également qu’un contrôle strict de l’activité de Rac-1 est nécessaire au maintien de la morphologie des épines dendritiques et de l’architecture du réseau d’actine branché. L’ensemble de mon travail souligne l’importance du rôle de l’organisation à l’échelle nanométrique du réseau d’actine branché et des adhésions N-cadhérine dans la dynamique et la formation des épines dendritiques. Ces résultats pourraient avoir un rôle important dans la compréhension des changements morphologiques lors de la plasticité synaptique. / Dendritic spines are tiny post-synaptic protrusions exhibiting changes in morphology correlated with synaptic plasticity. They originate from motile dendritic filopodia, which enlarge after contacting axons. These morphological changes involve a wide number of molecular actors, including actin-binding proteins, and adhesion molecules. However, how these various molecular components are coordinated temporally and spatially to tune changes in spine shape remains unclear. Furthermore, conventional photonic microscopy techniques could not achieved the spatial resolution required to study the dynamic nanoscale organization of these proteins within the micron size dendritic spines. The objective of my Ph.D. was to unravel how actin-binding proteins and N-cadherin adhesion regulate the organization and dynamics of F-actin network in dendritic spines. In a first study, we measured the motility of dendritic filopodia and spines by time lapse imaging of actin-GFP in primary hippocampal neurons. We combined those measurements with: 1) manipulation of N-cadherin coated beads with optical tweezers, or micropatterns to control the timing and location of nascent N-cadherin adhesions, 2) pharmacological stimulation of myosin II to trigger contraction of the F-actin/myosin network and 3) expression of non-adhesive N-cadherin mutants to compete for the interaction between N-cadherin adhesion and F-actin. Using these different approaches we demonstrated that the stabilization of dendritic filopodia into mature spines was dependent on the engagement of a molecular clutch between trans-synaptic N-cadherin adhesions and the myosin driven F-actin flow. In a second study, we used super resolution microscopy (PALM and dSTORM) and single protein tracking (sptPALM) to study the dynamic nanoscale organizations of branched actin networks within dendritic spines. Using these technics, we characterized within dendritic spines, the localization and dynamics of actin, Arp2/3 complex, WAVE complex, IRSp53, VASP and Rac-1. We established that, opposite to classical motile structures such as the lamellipodium, branched F-actin networks in dendritic spines are not formed at the tip of membrane protrusions and incorporated in a retrograde flow. On the contrary, they are growing outwards from the PSD generating membrane protrusions responsible for spine motility. We also show that a thigh control of Rac1 activity is required to maintain dendritic spine morphology and branched actin network organization. Altogether, these studies point out the role of the nanoscale functional organization of F-actin networks and its linkage to adhesion proteins in the regulation of dendritic spine formation and dynamics. These findings may have important implications in the understanding of spine morphology changes driven by synaptic activity. Épines dendritiques Protéines régulatrices de l’actine N-cadherine PSD Microscopie super-résolutive Suivi de protéines individuelles Dendritic spine Actin-binding proteins N-cadherin PSD Super resolution microscopy Single protein tracking
20	Neuron-glial Interaction in the Developing Peripheral Nervous System Corell, Mikael January 2011 (has links) The nervous system, including the brain, is the most sophisticated organ in the mammalian body. In such a complex network, neuron-glial interaction is essential and controls most developmental processes, such as stem cell fate determination, migration, differentiation, synapse formation, ensheathment and myelination. Many of these events are critical for the developmental process and small errors can lead to growth retardation, malformation or disease. The understanding of the normal progress of nervous system development is fundamental and will help the discovery of new treatments for disease. This thesis discusses three types of neuron-glia interactions at different developmental stages; neural stem/progenitor cell (NSPC) differentiation, building and maintaining the structure of the sciatic nerve, and myelin formation. In Paper I we show that NSPCs, based upon their morphology and expression of specific protein markers, have the capacity to differentiate into cells of either the peripheral nervous system (PNS) or enteric nervous system (ENS) when grown with PNS or ENS primary cell cultures, or fed with conditioned medium from these. This indicates that soluble factors secreted from the PNS or ENS cultures are important for stem cell differentiation and fate determination. The adhesion protein neuronal cadherin (N-cadherin) is implicated in migration, differentiation and nerve outgrowth in the developing PNS. In Paper II N-cadherin was exclusively found in ensheathing glia (nonmyelinating Schwann cells, satellite cells and enteric glia) in contact with each other or with axons. Functional blocking of N-cadherin in dissociated fetal dorsal root ganglia (DRG) cultures led to a decrease in attachment between Schwann cells. N-cadherin-mediated adhesion of nonmyelinating Schwann cells may be important in encapsulating thin calibre axons and provide support to myelinating Schwann cells. In Paper III the inhibitory gamma aminobutyric acid (GABA) and GABAB receptors were studied in the Schwann cell of the adult sciatic nerve and DRG cultures. GABAB receptors were primarily expressed in nonmyelinating Schwann cells and protein levels decreased during development and myelination. Blocking the GABAB receptor in long-term DRG cultures led to decreased levels of mRNA markers for myelin. These results indicate that the GABA and GABAB receptors may be involved in Schwann cell myelination. Schwann cell nonmyelinating Schwann cell myelinating Schwann cell development proliferation differentiation myelin neural stem cell central nervous system peripheral nervous system enteric nervous system N-cadherin GABA GAD GABA(B) receptor baclofen CGP55485 Neuroscience Neurovetenskap

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