Global ETD Search

151	The role of MKP-1 in autophagy, apoptosis and necrosis during ischaemia/reperfusion injury in the heart Vermeulen, Michelle 12 1900 (has links) Thesis MSc (Physiological Sciences))--University of Stellenbosch, 2010. / ENGLISH ABSTRACT: Ischaemic heart disease is a leading cause of death worldwide and is also largely contributing to deaths in Africa. Better treatment or even prevention of ischaemia/reperfusion injury in the heart, necessitates a better understanding of the molecular pathways and mechanisms of cell death. Three types of cell death can occur in the diseased myocardium. Type I, better known as apoptotic cell death, is characterised by cell shrinkage and chromatin condensation, type II, known as autophagic cell death, is characterised by intracellular accumulation of double membranes vacuoles and type III, necrotic cell death, is characterised by cellular swelling and loss of membrane integrity. Many signaling pathways are activated during ischaemia/reperfusion injury which include the mitogen activated protein kinases (MAPKs), such as extracellular signal-regulated protein kinase (ERK), c-Jun NH2-terminal protein kinase (JNK) and p38 MAPK. These kinases are dephosphorylated by appropriate phosphatases. MAPK phosphatase-1 (MKP-1), a dual specificity phosphatase, inactivates the MAPKs by dephosphorylating specific Thr/Tyr residues. Upregulation of MKP-1 during ischaemia/reperfusion injury has been shown to be cardioprotective, however no knowledge regarding a role of MKP-1 in autophagy exists. Therefore the aim of this study is to investigate the role of MKP-1 in autophagy, apoptosis and necrosis during simulated ischaemia/reperfusion injury in the heart.METHOD: H9C2 cells (rat cardiomyocytes) were cultured under standard conditions. Upon reaching 75-80% confluency, cells were treated for 30 min during normoxic conditions with dexamethasone, to induce MKP-1 expression, or sanguinarine, to inhibit MKP-1 induction. Thereafter, they were exposed to 3 hrs simulated ischaemia (induced by an ischaemic buffer and 5% CO2/1% O2) in the presence of the above mentioned treatments. Cells were then allowed to reperfuse for 30 min in the presence of dexamethasone or sanguinarine. Samples were analysed after simulated ischaemia and after reperfusion. Cell viability was measured by MTT assay. Propidium iodide and Hoechst staining were used to assess morphological markers of apoptosis and necrosis. LDH release during reperfusion was assessed as indicator of necrotic cell death. LysoTracker®Red was used to visualise the autophagic flux occurring during ischaemia/reperfusion in the cell. Flow cytometry was used to quantify cells stained with acridine orange as indicator for autophagy. Autophagic and apoptotic protein markers as well as MAPK and MKP-1 activity were analysed by Western Blotting. RESULTS: Our results indicate a clear relationship between MKP-1 induction, autophagy and cell survival during simulated ischaemia/reperfusion (SI/R). MKP-1 inhibition during SI/R resulted in decreased autophagy activity accompanied by significant apoptotic and necrotic cell death. Increased MKP-1 induction, on the other hand, during SI/R resulted in increased levels of autophagy activity and subsequent attenuation of apoptotic and necrotic cell death. p38 MAPK phosphorylation was significantly higher while MKP-1 was inhibited and significantly lower while MKP-1 was induced. This strongly indicates that upregulation of MKP-1, known to attenuate ischaemia/reperfusion injury, has an important role in cell survival during ischaemia/reperfusion injury in the heart, through its involvement in the regulation of autophagic activity as a stress response against apoptotic or necrotic cell death. / AFRIKAANSE OPSOMMING: Iskemiese hartsiekte is een van die grootste oorsake van sterftes wêreldwyd en dra ook beduidend by tot sterftes in Afrika. Om iskemiese hartsiektes te behandel of selfs te voorkom, is 'n goeie begrip van die molekulêre paaie wat betrokke is tydens iskemie/herperfusie, noodsaaklik. Drie tipes seldood kom tydens patologiese toestande in die hart voor. Tipe I, ook bekend as apoptotiese seldood, word gekenmerk deur selkrimping en kromatien kondensasie, tipe II, ook bekend as autofagiese seldood word gekenmerk deur intrasellulêre opeenhoping van dubbelmembraan vakuole en tipe III, bekend as nekrotiese seldood, word deur sellulêre swelling en verlies van membraan integriteit gekenmerk. Iskemie/herperfusie lei tot die aktivering van seintransduksiepaaie wat die MAPKs, soos p38, ERK en JNK insluit. Hierdie kinases word deur die gepaste fosfatases gedefosforileer. MKP-1, 'n dubbele spesifieke fosfatase, deaktiveer MAPKs deur hul Thr/Tyr eenhede te defosforileer. Alhoewel daar al voorheen getoon is dat verhoogte MKP-1 ‘n beskermende funksie in die hart tydens iskemie/herperfusie het, is daar nog geen bewyse vir ‘n rol van MKP-1 tydens autofagie nie. Die doel van hierdie studie is dus om die rol van MKP-1 in autofagie, apoptose en nekrose te ondersoek tydens gesimuleerde iskemie/herperfusie in die hart. METODE: H9C2 selle (rot ventrikulêre hartselle) is onder standaard toestande gekweek. Wanneer die selle 75-80% konfluensie bereik het, is dit behandel met dexamethasone of sanguinarine onder standaard toestande vir 30 min. Daarna is selle blootgestel aan 3 ure iskemie, in die teenwoordigheid van dexamethasone of sanguinarine. Selle is dan toegelaat om vir 30 min te herperfuseer, weer in die teenwoordigheid van dexamethasone of sanguinarine. Monsters is na iskemie en herperfusie geneem vir analise. Selvatbaarheid is gekwantifiseer deur ‘n MTT bepaling. Morfologiese merkers van seldood is bepaal met behulp van propidium iodide en Hoechst kleuringsmetodes. Laktaatdehidrogenase (LDH) vrystelling tydens herperfusie is as merker van nekrose gebruik. Autofagie is gevisualiseer deur gebruik te maak van LysoTracker®Red kleuring tydens iskemie en herperfusie. Akridienoranje is gebruik om suur kompartemente te kleur. Vloeisitometrie is as kwantifiseringstegniek vir autofagie gebruik. Western Blotting is gebruik om uitdrukking van merkerproteïene van autofagie en apoptose sowel as MAPK en MKP-1 aktiwiteit tydens iskemie/reperfisie te bepaal. RESULTATE: Ons resultate toon ‘n verband tussen MKP-1 induksie, autofagie en seloorlewing gedurende gesimuleerde iskemie/herperfusie (SI/R) aan. MKP- 1 inhibisie gedurende SI/R het tot ‘n afname in autofagie gelei tesame met ‘n beduidende toename in apoptotiese en nekrotiese seldood. Verhoogde MKP-1 induksie gedurende SI/R, daarteenoor, het autofagiese aktiwiteit verhoog, gepaardgaande met ‘n verlaging in apoptose en nekrose. p38 MAPK fosforilasie was beduidend hoër tydens MKP-1 inhibisie en laer met MKP-1 induksie. Hierdie resultate toon dat MKP-1 ‘n belangrike rol in seloorlewing speel tydens iskemie/herperfusiesskade in die hart, deur sy deelname in die regulering van autofagiese aktiwiteit as ‘n stres reaksie teen apoptotiese en nekrotiese seldood. Ischaemia Autophagy Apoptosis Necrosis MKP-1 Reperfusion injury Theses -- Physiology (Human and animal) Dual specificity phosphatase 1 Map kinase phosphatase 1 Heart -- Diseases
152	Operant and classical learning in Drosophila melanogaster: the ignorant gene (ign) / Operantes und klassisches Lernen in Drosophila melanogaster: das ignorant Gen (ign) Bertolucci, Franco January 2008 (has links) (PDF) One of the major challenges in neuroscience is to understand the neuronal processes that underlie learning and memory. For example, what biochemical pathways underlie the coincidence detection between stimuli during classical conditioning, or between an action and its consequences during operant conditioning? In which neural substructures is this information stored? How similar are the pathways mediating these two types of associative learning and at which level do they diverge? The fly Drosophila melanogaster is an appropriate model organism to address these questions due to the availability of suitable learning paradigms and neurogenetic tools. It permits an extensive study of the functional role of the gene S6KII which in Drosophila had been found to be differentially involved in classical and operant conditioning (Bertolucci, 2002; Putz et al., 2004). Genomic rescue experiments showed that olfactory conditioning in the Tully machine, a paradigm for Pavlovian olfactory conditioning, depends on the presence of an intact S6KII gene. This rescue was successfully performed on both the null mutant and a partial deletion, suggesting that the removal of the phosphorylating unit of the kinase was the main cause of the functional defect. The GAL4/UAS system was used to achieve temporal and spatial control of S6KII expression. It was shown that expression of the kinase during the adult stage was essential for the rescue. This finding ruled out a developmental origin of the mutant learning phenotype. Furthermore, targeted spatial rescue of S6KII revealed a requirement in the mushroom bodies and excluded other brain structures like the median bundle, the antennal lobes and the central complex. This pattern is very similar to the one previously identified with the rutabaga mutant (Zars et al., 2000). Experiments with the double mutant rut, ign58-1 suggest that both rutabaga and S6KII operate in the same signalling pathway. Previous studies had already shown that deviating results from operant and classical conditioning point to different roles for S6KII in the two types of learning (Bertolucci, 2002; Putz, 2002). This conclusion was further strengthened by the defective performance of the transgenic lines in place learning and their normal behavior in olfactory conditioning. A novel type of learning experiment, called “idle experiment”, was designed. It is based on the conditioning of the walking activity and represents a purely operant task, overcoming some of the limitations of the “standard” heat-box experiment, a place learning paradigm. The novel nature of the idle experiment allowed exploring “learned helplessness” in flies, unveiling astonishing similarities to more complex organisms such as rats, mice and humans. Learned helplessness in Drosophila is found only in females and is sensitive to antidepressants. / Eine der größten Herausforderungen in der Neurobiologie ist es, die neuronalen Prozesse zu verstehen, die Lernen und Gedächtnis zugrundeliegen. Welche biochemischen Pfade liegen z.B. der Koinzidenzdetektion von Reizen (klassische Konditionierung) oder einer Handlung und ihren Konsequenzen (operante Konditionierung) zugrunde? In welchen neuronalen Unterstrukturen werden diese Informationen gespeichert? Wie ähnlich sind die Stoffwechselwege, die diese beiden Arten des assoziativen Lernens vermitteln und auf welchem Niveau divergieren sie? Drosophila melanogaster ist wegen der Verfügbarkeit von Lern-Paradigmen und neurogenetischen Werkzeugen ein geeigneter Modell-Organismus, zum diese Fragen zu adressieren. Er ermöglicht eine umfangreiche Studie der Funktion des Gens S6KII, das in der Taufliege in klassischer und operanter Konditionierung unterschiedlich involviert ist (Bertolucci, 2002; Putz et al., 2004). Rettungsexperimenten zeigen, dass die olfaktorische Konditionierung in der Tully Maschine (ein klassisches, Pawlow’sches Konditionierungsparadigma) von dem Vorhandensein eines intakten S6KII Gens abhängt. Die Rettung war sowohl mit einer vollständigen, als auch einer partiellen Deletion erfolgreich und dies zeigt, dass der Verlust der phosphorylierenden Untereinheit der Kinase die Hauptursache des Funktionsdefektes war. Das GAL4/UAS System wurde benutzt, um die S6KII Expression zeitlich und räumlich zu steuern. Es wurde gezeigt, dass die Expression der Kinase während des adulten Stadiums für die Rettung hinreichend war. Dieser Befund schließt eine Entwicklungsstörung als Ursache für den mutanten Phänotyp aus. Außerdem zeigte die gezielte räumliche Rettung von S6KII die Notwendigkeit der Pilzkörper und schloss Strukturen wie das mediane Bündel, die Antennalloben und den Zentralkomplex aus. Dieses Muster ist dem vorher mit der rutabaga Mutation identifizierten sehr ähnlich (Zars et al., 2000). Experimente mit der Doppelmutante rut, ign58-1 deuten an, dass rutabaga und S6KII im gleichen Signalweg aktiv sind. Vorhergehende Studien hatten bereits gezeigt, dass die unterschiedlichen Ergebnisse bei operanter und klassischer Konditionierung auf verschiedenen Rollen für S6KII in den zwei Arten des Lernens hindeuten (Bertolucci, 2002; Putz, 2002). Diese Schlussfolgerung wurde durch den mutanten Phänotyp der transgenen Linien in der Positionskonditionierung und ihr wildtypisches Verhalten in der klassischen Konditionierung zusätzlich bekräftigt. Eine neue Art von Lern-Experiment, genannt „Idle Experiment“, wurde entworfen. Es basiert auf der Konditionierung der Laufaktivität, stellt eine operante Aufgabenstellung dar und überwindet einige der Limitationen des „Standard“ Heat-Box Experimentes. Die neue Art des Idle Experimentes erlaubt es, „gelernte Hilflosigkeit“ in Fliegen zu erforschen, dabei zeigte sich eine erstaunliche Ähnlichkeit zu den Vorgängen in komplizierteren Organismen wie Ratten, Mäusen oder Menschen. Gelernte Hilflosigkeit in der Taufliege wurde nur in den Weibchen beobachtet und wird von Antidepressiva beeinflusst. Klassische Konditionierung Instrumentelle Konditionierung Konditionierung Operante Konditionierung Lernen Räumliches Gedächtnis Assoziatives Gedächtnis Gedächtnis MAP-Kinase Drosophila Taufliege Gelernte Hilflosigkeit CREB ddc:570
153	Understanding the genetic and morphological basis of bushy root and bifuricate, two mutations affecting plant architecture in Solanum lycopersicum L Silva Ferreira, Demetryus January 2017 (has links) The classical ethyl methanesulfonate (EMS) tomato mutant bushy root (brt) was studied using a homozygous near isogenic line (brtNIL) in the Micro-Tom (MT) genetic background. The mutation has a pleiotropic phenotype comprising slow seedling development, which may be a consequence of a maternally-inherited small seed phenotype, and a more compact, smaller but not bushier, root phenotype. The number of lateral roots, total root length and taproot size are all smaller in brtNIL than the WT. The BRT locus was mapped to a 137 kbp region containing 9 candidate genes on chr 12; an InDel in the promoter region of Solyc12g014590 – containing two highly conserved pirin domains (Pirin_C and Pirin), was detected. Different expression patterns were confirmed by transcriptomic results, supporting Solyc12g014590 as the gene responsible for the brt phenotype. A naturally occurring recessive mutant named bifuricate (bif) shows an increase in inflorescence (truss) branching in comparison to the wild type (WT) control line, LAM183. In addition, the number of flowers per truss was 235% higher in bif plants than WT. Low temperature is known to increase truss branching, and so a four day low temperature treatment was applied and it was demonstrated that flowering increased significantly more in bif than in LAM183. The BIF locus was mapped to a 2.01 Mbp interval of chromosome 12 containing 53 genes. All coding region polymorphisms in the interval were surveyed, and two genes Solyc12g019420 (a BTB/TAZ transcription factor) and Solyc12g019460 (a MAP kinase) contained one stop codon predicted to disrupt gene function; both genes are excellent candidates for inflorescence branching control based on literature evidence. A newly developed introgression browser was used to demonstrate that the origin of the bif mutant haplotype is Solanum galapagense. 635
154	Signal transduction mechanisms regulating the activation, adhesion and migration of human eosinophils and T-lymphocytes in allergic inflammation. / CUHK electronic theses & dissertations collection January 2003 (has links) Ip Wai-Ki. / "July 2003." / Thesis (Ph.D.)--Chinese University of Hong Kong, 2003. / Includes bibliographical references (p. 261-290). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Mode of access: World Wide Web. / Abstracts in English and Chinese. Eosinophils T-Lymphocytes Signal Transduction Inflammation NF-kappa B--metabolism MAP Kinase Signaling System Cell Adhesion Molecules--metabolism
155	Bacterial toxins for cancer treatment Johansson, David January 2008 (has links) Even though anti‐cancer chemotherapy has been continuously improved during the last decades. problems with adverse effects and drug resistance still constitutes a considerable obstacle and sets a demand for new effective treatment options. Tissue homeostasis in multi‐cellular organisms is maintained through intrinsic cell death, apoptosis, which removes unwanted or damaged cells. Disrupted apoptosis is an important factor in tumorgenesis and drug resistance, therefore induction or restoration of apoptotic pathways is also important for the treatment of cancer. Several naturally occurring bacterial toxins have the ability to induce apoptosis and could thus be candidates to complement or improve the therapeutic effect of other anticancer drugs. The bacterial toxins, adenylate cyclase (AC) toxin from Bordetella pertussis, α‐toxin from Staphylococcus aureus and verotoxin‐1 (VT‐1) from Escherichia coli were investigated for their ability to induce apoptosis in different tumor cell lines. Toxin induction of cell death was investigated by cell viability assays, end‐stage apoptosis induction by DNA‐fregmentation (TUNEL) assay. Toxin receptor expression and signal transduction pathways to apoptosis were investigated by flow cytometry, caspase enzyme activity assays and western blot. Immunohistochemistry was used for identification of toxin receptor expression in tumor tissue samples. AC‐toxin was cytotoxic and induced apoptosis in cultured malignant plural mesothelioma (MPM) and small‐cell lung cancer (SCLC) cells. Low‐toxic concentrations of AC‐toxin enhanced cisplatin cytotoxicity and apoptosis in both cell lines. MPM‐cells with acquired cisplatin resistance were more sensitive to α‐toxin than the less resistant parental MPM cell line. A low‐toxic concentration of α‐toxin re‐sensitized resistant MPM cells to cisplatin cytotoxicity by apoptosis induced through the mitochondrial pathway without detectable activation of common up‐stream apoptosis signalling proteins. VT‐1 was highly cytotoxic and induced apoptosis in globotriosylceramide (Gb3) ‐expressing glioma, breast cancer and non‐small‐cell lung cancer (NSCLC) cells but was not cytotoxic to non‐Gb3‐expressing cells. PPMP, an inhibitor of glucosylceramide synthesis which makes exposed cells unable to synthesize Gb3 rendered Gb3‐expressing cells resistant to VT‐1. MPM cells with acquired‐cisplatin resistance expressed Gb3 in contrast to the absent of expression in the less resistant parental cell line. Gb3, could however be up‐regulated by cisplatin in Gb3‐negative MPM‐cells. Presence of a low‐toxic concentration of VT‐1 potentiated cisplatin‐induced cytotoxicity and apoptosis in the cisplatin‐resistance MPM cell line. VT‐1 was a potent inducer of apoptosis, probably via stress‐induced Mitogen‐activated protein kinase (MAPK)‐signaling involving c‐Jun N‐terminal kinase (JNK) and p38, leading to disruption of the mitochondrial membrane integrety, activation of caspase‐9 and ‐3, and ultimately DNA fragmentation and cell death. Gb3 expression was demonstrated in clinical specimens of glioblastoma and breast cancer making these tumor types interesting for further VT‐1 studies. We conclude that bacterial toxins may be used to induce apoptosis in several types of cancer cells. Low concentrations of verotoxin‐1 and α‐toxin may potentially be used to overcome acquired cisplatin‐resistance in cancer patients. Alpha‐toxin AC‐toxin mesothelioma lung cancer glioma breast cancer caspases MAP-Kinase verotoxin‐1 cisplatin apoptosis Gb3 drug resistance Clinical chemistry Klinisk kemi
156	Evolution of Genes and Gene Networks in Filamentous Fungi Greenwald, Charles Joaquin 2010 August 1900 (has links) The Pezizomycotina, commonly known as the filamentous fungi, are a diverse group of organisms that have a major impact on human life. The filamentous fungi diverged from a common ancestor approximately 200 – 700 million years ago. Because of the diversity and the wealth of biological and genomic tools for the filamentous fungi it is possible to track the evolutionary history of genes and gene networks in these organisms. In this dissertation I focus on the evolution of two genes (lolC and lolD) in the LOL secondary metabolite gene cluster in Epichloë and Neotyphodium genera, the evolution of the MAP kinase-signaling cascade in the filamentous fungi, the regulation of the gene networks involved in asexual development in Neurospora crassa, and the identification of two genes in the N. crassa asexual development gene network, acon-2 and acon-3. I find that lolC and lolD originated as an ancient duplication in the ancestor of the filamentous fungi, which were later recruited in the LOL gene cluster in the fungal endophyte lineage. In the MAP kinase-signaling cascade, I find that the MAPK component is the most central gene in the gene network. I also find that the MAPK signaling cascade originated as three copies in the ancestor to eukaryotes, an arrangement that is maintained in filamentous fungi. My observations of gene expression profiling during N. crassa asexual development show tissue specific expression of genes. Both the vegetative mycelium and the aerial hyphae contribute to the formation of macroconidiophores. Also, with the help of genomic tools recently developed by researchers in the filamentous fungal community, I identified NCU00478 and NCU07617 as the genes with mutations responsible for two aconidial strains of N. crassa, acon-2 and acon-3 respectively. Gene networks Pezizomycotina Neurospora crassa macroconidiation acon-2 acon-3 map kinase evolution loline lold lolD gene cluster conidiation asexual development
157	Développement de facteurs de régulation photoactivables Neveu, Pierre 02 July 2007 (has links) (PDF) Les cellules d'un organisme multicellulaire a justent constamment la concentration de leur consti- <br />tuants en fonction de leurs interactions avec leurs voisines et l'environnement. Une reponse adaptee est particulierement importante pendant l'embryogenese. Au cours de cette these, nous avons developpe une technique permettant de controler des fonctions cellulaires a l'echelle de la cellule unique dans un organisme intact. L'utilisation de molecules cagees et de l'excitation biphotonique a permis de remplir le but vise. <br />Dans un premier temps, nous exposons les precautions a prendre et les proprietes necessaires des groupements protecteurs pour l'utilisation d'une telle technique dans un contexte biologique. Dans un deuxieme temps, nous nous interessons a la caracterisation des proprietes d'absorption a deux photons des groupements protecteurs utilises au cours de ce travail. Enfin, nous presentons une application de la technique a la voie de signalisation acide retinoique dans le poisson zebre. Nous montrons que nous pouvons delivrer une concentration bien definie de molecules dans une seule cellule avec une resolution temporelle de la seconde dans un embryon intact. Grace a ceci, nous avons pu etudier la dynamique de cette voie de signalisation et mettre en evidence un controle negatif rapide qui est cellule autonome et identifier la MAP kinase p38 comme etant necessaire a ce phenomene. <br />Nous presentons aussi en annexes la demonstration de principe de l'utilisation de composes cages pour generer des recombinaisons genomiques chez le poisson zebre et inhiber une fonction enzymatique (en l'occurence une activite topoisomerase). composes cages acide retinoique poisson zebre map kinase controle de la transcription excitation biphotonique recombinaison genomique acide nalidixique
158	Regulation and communication between the NRD kinase COT1, the MAK2 MAP kinase and the Striatin complex in Neurospora crassa / Regulation und Kommunikation zwischen der NDR kinase COT1, der MAK2 MAP kinase Kaskade und des Straitinkomplexes in Neurospora crassa Dettmann, Anne 23 August 2011 (has links) No description available. 570 Biowissenschaften, Biologie Biology (incl. Psychology) Filamentöse Pilze polares Wachstum NDR Kinase MAP kinase Signaltransduktion Gerüstprotein filamentous fungi polar growth NDR kinases MAP kinases signal transduction scaffold protein
159	Eukaryotic initiation factor 4B (eIF4B) : regulation by signaling pathways and its role in translation Shahbazian, David. January 2008 (has links) Due to the high energetic expenditure for the cell, the protein biosynthesis in eukaryotes is an extensively controlled process predominantly regulated at the ribosomal biogenesis and translation initiation steps. The ribosomal biogenesis defines the global translational aptitude of the cell. It is a mainly nucleolar process which is regulated at multiple steps (e.g. transcription, rRNA processing and modification, ribosomal protein translation etc). However, the most extensively regulated and the rate limiting step of translation is the initiation. Multiple eukaryotic translation initiation factors (eIFs) function to facilitate this priming step of translation. The initial recognition of the mRNA molecule happens through the 5' cap structure found in all mRNAs of nuclear origin. This event is mediated through the recruitment of heterotrimeric complex eIF4F consisting of cap-binding protein eIF4E, scaffolding protein eIF4G and the RNA helicase eIF4A unwinding secondary structures found in 5'UTR of mRNA and thus thought to facilitate the scanning process. The helicase activity of elF4F complex or of eIF4A alone is further potentiated by eIF4B in vitro. The latter protein is at the focus of present thesis. / Signal transduction regulates multiple cellular processes including mitogenesis, differentiation, apoptosis, chemotaxis etc. Signaling pathways also regulate ribosomal biogenesis to coordinate mitogenic cues, nutrient and energy availability with the translational capacity of the cells. Mounting evidence links PI3K-Akt-mTOR and Ras-MAPK cascades to the translational control. In this thesis, I show that PI3K/mTOR and MAP kinase cascades converge to phosphorylate eIF4B on Ser422. This phosphorylation results in an increased interaction with eIF3, an essential factor bridging between eIF4F and the small ribosomal subunit. Physiological significance of eIF4B phosphorylation on Ser422 has been demonstrated by the stimulatory effect of eIF4B Ser422Asp phosphomimetic mutant on cap-dependent translation. Taken together, this represents a new paradigm of translational control mechanism regulated by signaling crosstalk. The function of eIF4B in vitro is well characterized but its in vivoeffects are disputed in literature. To address this I established HeLa cell line stably expressing shRNA targeting eIF4B. eIF4B silencing inhibits proliferation rates and anchorage-independent growth. Expression of luciferase reporter gene containing 5' terminal oligopyrimidine tract (TOP) is selectively repressed in eIF4B-silenced cells and can be rescued by exogenous eIF4B regardless of Ser422 phosphorylation status. Moreover, the de novo synthesis rates of endogenous ribosomal proteins in serum starved cultures recapitulate the luciferase reporter assay data. Utilizing polysomal analysis, I was able to show more significant inhibition of translation initiation in serum starved eIF4B-silenced cells. Our attempt to discover novel eIF4B-interacting proteins by Mass Spectrometry approach led to the identification of nucleolar RNA helicase DDX21. Confocal microscopy has shown partial co-localization of tagged eIF4B and DDX21 in nucleolar periphery. Pulse chase experiments metabolically labeling rRNA show an attenuated 28S rRNA production and concomitant accumulation of 36S intermediates in eIF4B-silenced cells. Since ribosomal biogenesis is highly coordinated process and requires strict stoichiometry maintenance of ribosomal components the observed inhibition of rRNA processing could be consequential to the decreased ribosomal protein expression. However, given the fact that eIF4B is associated with the nucleolar pre-ribosomal particle complexes its direct effect on rRNA processing cannot be ruled out. Regulation of ribosomal biogenesis by translation initiation factor may represent an important control mechanism allowing cells to co-ordinate these two processes. MAP Kinase Signaling System. Peptide Chain Initiation, Translational.
160	Rôle des lipides-phosphate phosphatases dans la modulation des voies de signalisation impliquées dans les léiomyomes utérins. Violet, Pierre-Christian 17 December 2012 (has links) (PDF) Le léiomyome utérin est la pathologie utérine la plus fréquente chez les femmes en âges de procréer. Des résultats précédent obtenus avec les cellules ELT3, une lignée de cellules de léiomyomes de rat, ont montré que l'acide lysophosphatidique (LPA) activait les MAP kinases ERK1/2 via le récepteur LPA1 couplé à la protéine Gi et l'activation de Raf, Ras et de MEK. Durant ce travail, nous avons caractérisé l'activité phosphatase responsable de la dégradation du LPA dans cette lignée de cellules ELT3. Nous avons montré que le LPA était dégradé exclusivement par la lipide-phosphate phosphatase 1 (LPP1), seule isoforme exprimé dans les cellules ELT3. Dans un deuxième temps nous nous somme intéressés aux effets du diacylglycerol pyrophosphate (DGPP). Le DGPP est un médiateur lipidique qui, sous sa forme dioctanoyl (DGPP8:0), est décrit comme un antagoniste des récepteurs LPA1 et LPA3 chez les mammifères. Dans cette étude, nous montrons que le DGPP8:0 n'a pas d'effet antagoniste sur l'activation du module MAP kinase ERK1/2 par le LPA mais qu'il induit une activation de ERK1/2 dans plusieurs lignées de cellules de mammifères. En effet le DGPP active ERK1/2 à travers l'activation des PKC, Raf et MEK. De plus, nous montrons que l'activation induite par le DGPP repose sur sa déphosphorylation catalysée par une LPP. Nous montrons également que l'inhibition de LPP1 par le VPC32183 ou l'utilisation de siRNA dirigé contre la lipide phosphate-phosphatase 1 (LPP1) réduit l'activation ERK1/2 induite par le DGPP. Ceci montre que le DGPP active ERK1/2 via sa déphosphorylation en acide phosphatidique (PA8:0), catalysée par la LPP1. Enfin dans une dernière partie nous montrons que le myomètre sain, contrairement aux cellules ELT3, exprime à la fois la LPP1 et la LPP3. En étudiant l'effet de la surexpression de la LPP3 dans les cellules ELT3, nous avons observé que la LPP3 interagissait avec la LPP1 et qu'elle pourrait la séquestrer dans des compartiments membranaires internes. Cette séquestration entraine une diminution de l'actvité ecto-LPP au profit de l'activité intracellulaire qui pourrait réguler négativement la production de seconds messagers phospholipidiques. Ces résultats montrent l'importance des LPP dans la régulation des effets des phospholipides bioactifs et suggère un lien entre le caractère tumorale des cellules de léiomyomes et l'absence de la LPP3. Leiomyome utérin Cellule ELT3 Lipide-phosphate phosphatase Acide phosphatidique Acide lysophophatidique Diacylglycérol pyrophosphate VPC32183 Endothèline ERK MAP kinase

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