Global ETD Search

351	RAS-MAPK syndromes - a Clinical and Molecular Investigation Nyström, Anna-Maja January 2009 (has links) The RAS-MAPK syndromes are a group of clinically and genetically related disorders, characterized by cardiac defects, facial dysmorphism, cutaneous abnormalities and neurocognitive impairment. The pathogenesis is dysregulation of the RAS-MAPK pathway, and several genes within the pathway are involved. The present thesis aimed at identifying genetic causes in three of the RAS-MAPK syndromes - Noonan syndrome (NS), cardio-facio-cutaneous syndrome (CFC) and Neurofibromatosis-Noonan syndrome (NFNS) - and at correlating genotype with phenotype. A mutation analysis of six genes associated with the RAS-MAPK syndromes in NS and CFC patients revealed mutations in 10/31 patients. The results suggested more complex genetic overlap and genetic heterogeneity among these syndromes than previously believed. Subsequently, gene dosage imbalances of seven RAS-MAPK-syndrome-related genes were investigated in mutation-negative patients. A multiplex ligation-dependent probe amplification strategy was developed that excluded copy number changes of these genes as a common mechanism in NS. Genetic causes of clinical variability in NS were investigated where an atypical and severe NS patient was described. In addition, multiple café-au-lait (CAL) spots affected the patient and four otherwise healthy family members. Molecular analysis of four candidate genes revealed a previously described de novo PTPN11 mutation and an inherited NF1 variant in the patient. Neither of them explained the CAL spots trait, which consequently represented a distinct entity. The results suggested that the atypical and severe phenotype in the patient could be a consequence of an additive effect. Finally, a family displaying NFNS was investigated clinically and molecularly revealing a novel mutation in the GAP-domain of NF1. Furthermore, the results suggested that other RAS-MAPK-syndrome-related genes are not involved in NFNS. A proposal of prioritizing the GAP-domain of NF1 in NFNS was presented. Conclusively, these studies contribute to further understanding of the RAS-MAPK syndromes and facilitate the diagnostic process and future prognosis prediction. RAS-MAPK syndromes Noonan syndrome Neurofibromatosis type I cardio-facio-cutaneous syndrome mutation gene
352	Efectos conductuales y modulación de la síntesis de monoaminas y de la vía de quinasas mitogénicas en cerebro de rata tras tratamientos con cannabinoides y etanol Moranta Mesquida, David 28 October 2005 (has links) A pesar de que el uso del cannabis y el alcohol como sustancias psicoactivas es muy antiguo y que su uso como drogas recreacionales está muy extendido, los mecanismos a través de los cuales producen sus efectos psicoactivos se han empezado a conocer hace relativamente poco tiempo. En la presente tesis se estudia como afectan distintos tratamientos sistémicos, tanto con etanol como con distintos compuestos cannabinoides, simultáneamente sobre la síntesis de las distintas monoaminas en diferentes regiones cerebrales de rata. Además, se analizó como afectaban estos tratamientos a los distintos componentes de la vía de señalización intracelular de las MAPK en la corteza frontal de rata. Se realizaron distintos tratamientos agudos con estos compuestos así como tratamientos a más largo plazo (crónicos) y además se estudiaron estos parámetros durante el llamado síndrome de abstinencia que aparece una vez que se detiene esta administración crónica. Receptor CB1 tolerancia síndrome de abstinencia dependencia ERK MEK Raf noradrenalina MAPK dopamina serotonina etanol cannabinoides síntesis de monoaminas rata cerebro Neurofarmacologia 57 577
353	Tyrosinkinaseinhibition bei humanen Non-Hodgkin-Lymphomen: Präklinische Evaluation von Sorafenib / Tyrosine Kinase Inhibition at Human Non-Hodgkin s Lymphomas: Preclinical Evaluation of Sorafenib Schuelper, Nikolai 30 November 2010 (has links) No description available. 610 Medizin, Gesundheit Medicine Tyrosinkinaseinhibition Non-Hodgkin-Lymphom NHL Sorafenib MAPK14 AKT MAPK p38 Tyrosine Kinase Inhibition Non-Hodgkin MED 424: Onkologie MED 417: Hämatologie
354	Posttranskriptionale Veränderungen der E3-Ubiquitin-Ligase IMP (impedes mitogenic signal propagation) / Post-transcriptional modifications of E3-Ubiquitin-Ligase IMP (impedes mitogenic signal propagation) Böcker, Christian 26 August 2013 (has links) No description available. 610 impedes mitogenic signal propagation IMP mitogen activated protein kinase RAF MEK ERK MAPK post-transcriptional modifications Kardiologie (PPN619875755) GOK-MEDIZIN
355	Étude de l'activation des basophiles par le système tachykinergique Ouaked, Nadia January 2005 (has links) Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal Antagonistes du récepteur NK-1 Asthme Basophiles Dégranulation Neurokinine-1 (NK-1) Substance P Tachykinines
356	Étude de la modulation de l'activité et de l'expression de la NADPH-réductase par la réaction inflammatoire Dupuis, Mariève January 2007 (has links) Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal NADPH-réductase Cytochrome P450 CYP3A6 Réaction inflammatoire IL-6 IL-1[Béta] Peroxyde d'hydrogène Monoxyde d'azote P38 MAPK ERK 1/2
357	Régulation de l’activité transcriptionnelle des récepteurs des estrogènes (ER) par le récepteur à chimiokine CXCR4 et les récepteurs à activité tyrosine kinase ErbB2 et ErbB3 Sauvé, Karine 08 1900 (has links) La régulation de la transcription des gènes par les récepteurs des estrogènes ERα et ERβ joue un rôle important dans la croissance cellulaire et dans le développement du cancer du sein. Une augmentation de l’expression de CXCR4 et de son ligand SDF-1/CXCL12 corrèle avec un phénotype plus agressif du cancer du sein. Ici, nous démontrons un mécanisme de boucle de régulation positive entre la signalisation de CXCR4/SDF-1 et l’activité transcriptionnelle des ERs dans des cellules cancéreuses mammaires. L’activité transcriptionnelle de ER et l’expression de gènes cibles de ER, dont SDF-1 lui-même, sont augmentées dans la lignée cancéreuse mammaire MCF-7 en réponse à SDF-1. Ces effets sont bloqués par l’anti-estrogène fulvestrant et par la délétion de CXCR4. Par ailleurs, l’expression des gènes et la prolifération des cellules cancéreuses mammaires MCF-7 en réponse à l’estrogène sont altérées par l’inhibition de CXCR4. La signalisation par les facteurs de croissance joue un rôle important dans le cancer du sein. La surexpression et la dérégulation de la signalisation par le récepteur à activité tyrosine kinase ErbB2 corrèlent avec un phénotype tumoral mammaire plus agressif et un moins bon pronostic. Cependant, comment la signalisation de ErbB2 et de CXCR4 sont fonctionnellement reliées dans la régulation de la réponse de ER dans les cellules cancéreuses mammaires n’est pas connue. Nous démontrons ici que CXCR4 régule négativement l’expression protéique de ErbB2 et de son partenaire d’interaction ErbB3 ainsi que la phosphorylation de ErbB2. CXCR4 altère l’activation de la voie PI3-K/Akt par le dimère ErbB2/ErbB3 en réponse à héréguline alors qu’en présence de SDF-1, les niveaux d’activation sont récupérés. Nous avons trouvé que héréguline-β promouvoit la phosphorylation de la sérine 339 de CXCR4, un site important pour l’internalisation et la signalisation du récepteur. De plus, le recrutement de ErbB2 à CXCR4 est favorisé par ErbB3 et héréguline-β. L’activité transcriptionnelle ainsi que l’expression des gènes cibles de ER en réponse à l’héréguline sont relevées avec l’expression de CXCR4 et partiellement récupérées avec l’addition de SDF-1. Ces résultats démontrent que le recrutement de CXCR4 à ErbB2 altère la signalisation médiée par ErbB2/ErbB3 ainsi que l’activité hormonale de ER dans des cellules cancéreuses mammaires. Nous travaux ont permis d’identifier et de caractériser l’impact de la signalisation médiée par des récepteurs membranaires sur la réponse transcriptionnelle de ER dans des cellules cancéreuses mammaires. La signalisation membranaire est un facteur pouvant contribuer à la résistance aux thérapies endocriniennes et donc cibler les récepteurs impliqués s’avèrerait utile pour améliorer les traitements existants et mettre au point de nouvelles approches. / Induction of estrogen-regulated gene transcription by estrogen receptors ERα and ERβ plays an important role in breast cancer development and growth. High expression of the chemokine receptor CXCR4 and its ligand CXCL12/SDF-1 has also been correlated with aggressive breast tumor phenotypes. Here, we describe a positive regulatory loop between CXCR4/SDF-1 signaling pathway and ER transcriptional competence in human breast cancer cells. Treatment of breast carcinoma MCF-7 cells with SDF-1 increased ER transcriptional activity and expression of ER target genes, including SDF-1 itself. These effects were blocked by the antiestrogen ICI-182780 and by CXCR4 silencing, and conversely, estrogen-induced gene expression and growth of MCF-7 cells were impaired upon CXCR4 inhibition. Growth factor signaling also plays an important role in breast cancer. Overexpression and deregulated signaling of receptor tyrosine kinase ErbB2 correlate with aggressive breast tumor phenotype and poor outcomes. However, how ErbB2 and CXCR4 signaling is functionally related to regulate ER response in breast cancer cells is not known. Here we show that steady-state levels of ErbB2 and its dimeric partner ErbB3, as well as ErbB2 tyrosine phosphorylation were negatively regulated with the expression of CXCR4. CXCR4 downregulated ErbB2/ErbB3 dimer activation of the PI3-K/Akt pathway in response to ErbB3 ligand heregulin-β, whereas addition of SDF-1 restored activation levels. We found that heregulin-β promoted CXCR4 phosphorylation at serine 339, an important site for CXCR4 internalization and signaling. In addition, ErbB2 recruitment to CXCR4 was enhanced by ErbB3 and heregulin-β. Transcriptional activity and gene expression measurement showed that the hormonal repression of ER was relieved with the expression of CXCR4 and partially recuperated with the addition of SDF-1. Together, these results show that CXCR4 recruitment to ErbB2 alters ErbB2/ErbB3 signaling pathway and downstream regulation of ER hormonal activity in in breast cancer cells. Our work has enabled us to identify and characterize the impact of membrane receptors signaling on ER transcriptionnal response in breast cancer cells. Membrane signaling is one of the factors involved in endocrine therapy resistance and targeting the receptors implicated could be benificial to improve existing treatments and to work on the creation of new ones. ERβ ERα SDF-1 CXCR4 MAPK/ERK ErbB2/Her-2/Neu ErbB3 Héréguline PI3-K/Akt cancer du sein Heregulin breast cancer
358	Systems and synthetic biology studies in Saccharomyces cerevisiae Regot Rodríguez de Mier, Sergi 15 July 2011 (has links) A fundamental property of living cells is the ability to sense and respond appropriately to changing environmental conditions. In budding yeast (Sacharomyces cerevisiae), changes in extracellular osmotic conditions are sensed by the HOG SAPK pathway, which orchestrates the cell adaptation program required to maximize cell survival upon stress. Although most of the HOG pathway components have been described, little was known about the dynamics of the response. The aim of this thesis was to analyze the dynamic behavior of the HOG pathway. By using a chemical inhibitor and extensive signal quantification we showed that the HOG pathway is controlled by high basal signaling counteracted by a negative feedback regulatory system. This property determines dynamic signaling in terms of faster response times and higher sensitivity to small variations in extracellular stimuli. This thesis also aimed to implement novel strategies for biological computation that allow increasing complexity of circuits. By engineering signaling pathways in yeast, we have shown that distribution of computation tasks among several wired cells reduces wiring constraints and allows scalability of circuit complexity. Moreover, reusability of cells permits implementation of multiple circuits. Overall, our results define novel dynamic properties of the HOG pathway and have been important to achieve a better view of signal transduction process though MAPK pathways. Moreover, we have developed and implemented novel strategies for biological computation that solved fundamental constrains in the field of synthetic biology. / Una propietat cel•lular fonamental és l’habilitat de detectar estímuls i respondre coherentment a un ambient dinàmic. En cèl•lules de llevat (Saccharomyces cerevisiae), els canvis en l’osmolaritat externa són detectats per la via de senyalització de HOG que organitza tot el programa d’adaptació cel•lular, indispensable per assegurar la supervivència cel•lular en estrès osmòtic. Tot i que la gran majoria dels components de la via de HOG han estat identificats, la dinàmica del procés de senyalització és encara força desconeguda. L’objectiu d’aquest projecte de tesis ha estat analitzar el comportament dinàmic de la via de HOG. Gràcies a la utilització d’un al•lel inhibible de la MAPK Hog1 i a la quantificació sistemàtica del procés de senyalització, hem pogut demostrar que en la via de HOG existeix una intensa senyal basal reprimida constantment per un feedback negatiu depenent de la MAPK Hog1. Aquesta tesi també té com a objectiu la implementació de noves estratègies de computació biològica que permetin un increment de la complexitat dels circuits. Gràcies a la bioenginyeria de les vies de senyalització de llevat, hem demostrat que la distribució de la computació en diferents cèl•lules connectades entre elles disminueix les limitacions de connexió i permet incrementar la complexitat dels circuits a un baix cost. En conjunt, els nostres resultats defineixen noves propietats dinàmiques de la via de HOG i han estat importants per tenir una visió global millorada del procés de senyalització per vies de MAPK. A més, hem dissenyat i implementat noves estratègies de computació biològica que han resolt problemes fonamentals del camp de la biologia sintètica. Signaling Basal signal Hog1 MAPK Biological computation Multicellular networks Synthetic Biology Senyalització Senyal basal Computació Biològica Xarxes multicel•lulars Biologia sintètica 577
359	Regulation of transcriptional activation in response to heat stress and osmostress Ruiz Roig, Clàudia 02 December 2011 (has links) A Saccharomyces cerevisiae, un increment de la temperatura comporta diversos efectes deleteris en l’organització interna de la cèl∙lula i indueix una inducció ràpida, massiva i transitòria d’expressió gènica, que es controla principalment pels factors de transcripció Hsf1 i Msn2/4. En aquest estudi, fent servir un crivatge genètic a gran escala, hem identificat el conjunt d’activitats que es requereixen per a l’adaptació cel∙lular a l’estrés tèrmic. A més, hem trobat que el complex de desacetilació d’histones de Rpd3 és un component essencial per a l’adaptació i la supervivència a l’estrés tèrmic, i que es requereix per a l’adequada regulació de l’expressió gènica. Concretament, Rpd3 es necessita per a l’activació dels gens depenents de Msn2/4 en resposta a estrés tèrmic. A més, hem trobat que és el complex gran de Rpd3, però no el petit, el qui media l’adaptació cel∙lular. Un increment en l’osmolaritat externa activa la quinasa activada per estrés (SAPK) Hog1, que és essencial per induir diverses respostes adaptatives, com la regulació de l’expressió gènica. Hog1 controla al menys cinc factors de transcripció. Aquí ensenyem que els factors de transcripció Rtg1 i Rtg3 regulen l’expressió d’un conjunt de gens en resposta a estrés osmòtic, d’una manera depenent de Hog1. En resposta a estrés osmòtic, Hog1 es requereix per a l’acumulació nuclear del complex de transcripció de Rtg1/3. Un cop al nucli, Hog1 es recluta als promotors i la seva activitat es requereix per a la unió de Rtg1/3 a la cromatina. A més, la fosforilació de Rtg3 per Hog1 és un pas important per a l’adequada activació transcripcional. / In Saccharomyces cerevisiae, increases in temperature lead to deleterious effects on the internal organization of the cell, and lead to a massive and transient induction of gene expression, mainly controlled by Hsf1 and Msn2/4 transcription factors. In this study, by using a genome‐wide genetic screen, we identified the network of essential activities required for cell adaptation to heat stress. Moreover, we found that the Rpd3 histone deacetylase (HDAC) complex is an essential component for adaptation and survival to heat stress and it is required for proper regulation of gene expression. Specifically, Rpd3 is needed for activation of the Msn2/4‐dependent genes in response to heat stress. Moreover, we found that the large, but not the small Rpd3 complex mediates cell adaptation. Increases in the extracellular osmolarity activate the Hog1 stress‐activated protein kinase (SAPK), which is essential for the induction of diverse osmoadaptive responses, such as regulation of gene expression. At least five transcription factors have been shown to be controlled by Hog1. Here we show that the Rtg1 and Rtg3 transcription factors regulate the expression of a set of genes upon osmostress in a Hog1‐dependent manner. In response to osmostress, Hog1 is required for the nuclear accumulation of the Rtg1/3 transcription complex. Once in the nucleus, Hog1 is recruited at promoters and its activity is required for the binding of Rtg1/3 to chromatin. Moreover, Rtg3 phosphorylation by Hog1 is an important step for proper transcriptional activation. Heat stress Osmostress Chromatin Transcription Deacetylase Rpd3 MAPK Hog1 Mitochondrion Rtg1/3 Estrés tèrmic Estrés osmòtic Cromatina Transcripció Desacetilasa Mitocòndria 576
360	The role of mitochondria in regulating MAPK signalling pathways during oxidative stress Pang, Wei Wei January 2006 (has links) [Truncated abstract] Reactive oxygen species (ROS) have been implicated to play a major role in many pathological conditions including heart attack and stroke. Their ability to modulate the extracellular signal-regulated protein kinase (ERK) and c-Jun Nterminal kinase (JNK) signalling pathways, thereby influencing cellular response has been well-documented. Recent studies implicate a central role for mitochondria in ERK and JNK activation by ROS although the mechanisms remained unresolved. Using Jurkat T-lymphocyte as a cell model, this study demonstrated increased mitochondrial ROS production as a result of decreased mitochondrial complex activities mediated by hydrogen peroxide treatment. This is the first study to show that mitochondria are not essential for activating ERKs, however damaged mitochondria producing ROS can be expected to cause sustained ERK activation . . . This study revealed that JNK and its upstream kinases MKK4, MKK7 and ASK1 are associated with the mitochondria. Furthermore, findings from this study imply that JNK resides in the mitochondrial matrix. This study is the first to demonstrate that mitochondrial JNK can be activated in a cell-free environment by signals originating from the mitochondria. Experimental work using isolated mitochondria demonstrated that mitochondrial JNK can be activated by ROS generated from the mitochondria themselves. Flavin-containing proteins appear to be the main sources of mitochondrial-ROS which signal through redoxsensitive proteins to activate mitochondrial JNK. Mitochondria Protein kinases Oxidative stress Mitochondrial pathology C-Jun N-terminal kinase (JNK) MAPK signalling pathways

Search results