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Synthèse et évaluation biologique de dérivés hétérocyliques comme agents anti-cancéreux / Synthesis, biological evaluation of heterocyclic derivatives as anti-cancer agentsDo, Cong Viet 18 June 2013 (has links)
La combrétastatine A-4 est un produit naturel isolé d'un arbuste africain Combretum caffrum et qui possède de très intéressantes propriétés biologiques: inhibition de la polymérisation de la tubuline et propriétés antiprolifératives auprès de nombreuses cellules tumorales. Malheureusement, ce produit possède de propriétés pharmacocinétiques non optimales qui limitent son application clinique. Par conséquent de nombreux dérivés synthétiques ont été testés et parmi ceux-ci, l'isocombrétastatine A-4 (isoCA-4). Dans notre travail de thèse, nous avons donc synthétisé des analogues de l'isoCA-4 dont un des cycles aromatiques a été remplacé par des hétérocycles thiophènes et benzothiophènes diversement substitués. Certains de ces produits ont montré des activités du même ordre que la colchicine, substance de référence sur la polymérisation de la tubuline, et sur la prolifération de cellules mélanocytaires IC8. Les composés présentant une structure benzo[b]thiophène montrent une meilleure activité que ceux ayant une simple structure thiophène. De plus, les composés portant une chaine latérale en position 2 montrent une activité supérieure à ceux substitués en position 3.D'autre part, les stuctures indénoindoles sont connues comme étant de puissants inhibiteurs de la caséine kinase 2 (CK2), celle-ci joue un rôle important dans de nombreux processus cellulaires. A partir de cette structure indénoindole et, en utilisant une stratégie proche de celle utilisée pour la série précédente (par introduction d'un atome d'iode en position ortho et cyclisation pallado-catalysée), nous avons synthétisé des analogues indénohétérocycliquesen remplaçant le noyau indolepar des noyauxthiophèneetbenzo[b]thiophène. L'activité inhibitrice de ces dérivés vis-à-vis de la CK2 a été évaluée et l'un de ces composés a montré une forte activité / Isocombretastatin A-4 (isoCA-4), a modified combretastatin A-4 (CA-4), was recently discovered known as a strong activity compound to inhibit tubulin polymerization. The vinyl derivatives opened a new series which is hardly exploited. Based on the structure of isoCA-4, we synthesized isoheterocycles series by replacing the B-ring of isoCA-4 by thiophene and benzo[b]thiophene derivatives. These two series were evaluated in their ability to inhibit tubulin assembly. The benzo[b]thiophene derivativesshowed better activity than thiophene derivatives, the binding position 2 of benzo[b]thiophene showed higher activity than position 3. Indenoindoles was known as a potent series to inhibit casein kinase 2 which plays important role in many processes in cell. Based on the structure of indenoindole, we synthesized indenoheterocycles by replacing indole by thiophene and benzo[b]thiophene derivatives. These two series were evaluated in their ability to inhibit CK2. One of the compoundsshowed high activity
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Targeting ß-catenin in MPNSTsKendall, Jed 16 June 2017 (has links)
No description available.
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Regulation of transcription elongation factors SPT2 and SPT6 by casein kinase IIBhat, Abdul Wajid 19 April 2018 (has links)
Comme pour tous les autres processus en lien avec l’ADN, la structure de la chromatine lors de la transcription est dans un état de perpétuel changement. Ainsi, elle est ouverte pour permettre l’accès à l’ADN, pour ensuite se replier correctement. La dynamique de la structure chromatinienne est régulée finement par de multiples mécanismes qui agissent ensemble afin de rendre le processus hautement efficace. Ces mécanismes comprennent les modifications post-traductionelles des histones, le remodelage de la chromatine par les remodeleurs ATP-dépendants, l’incorporation des variants d’histones et l’assemblage/désassemblage des nucléosomes par les chaperons d’histones. En plus de ces activités, il y a un certain nombre de composantes non-reliées aux histones qui sont directement impliquées dans les modulations de la conformation de la chromatine associées à la transcription. Chez la levure, un de ces facteurs est la protéine HMG-like Spt2p, démontrée précédemment comme étant directement impliquée dans le réassemblage des nucléosomes dans le sillon de l’ARN polymérase II en déplacement le long du segment d’ADN transcrit. Dans la présente étude, nous démontrons que Spt2p est phosphorylée directement par la caséine kinase II (CKII) et que cette modification inhibe sa liaison à la chromatine. Nos résultats indiquent que la CKII altère l’interaction de Spt2p avec le chaperon d’histone Spt6p. Nous avons aussi trouvé que la phosphorylation directe de Spt6p par la CKII stimule l’association de ce facteur avec un autre partenaire, Iws1p. Cette association est absolument nécessaire pour le repliement correct des nucléosomes durant l’élongation. De plus, cette régulation positive du complexe Spt6p/Iws1p par la CKII module directement l’association de ce complexe avec la méthyltransférase de H3K36, Set2p. Finalement, nous avons montré que la phosphorylation de Spt6p par la CKII est essentielle à l’inhibition des promoteurs cryptiques et des erreurs de transcription. Dans l’ensemble, nos résultats suggèrent un nouveau mécanisme par lequel la CKII contrôle le repliement correct de la structure de la chromatine dans les régions codantes en modulant les interactions du chaperon d’histone essentiel Spt6p avec ses partenaires Spt2p, Iws1p et Set2p. / Like any other DNA-related process, chromatin structure is in a state of constant flux during transcription, unfolded to get access to DNA and refolded back properly. The dynamics of chromatin structure are tightly regulated and multiple mechanisms act together to make the process highly efficient. These include modifications of histones, chromatin remodeling by ATP-dependent remodeling factors, incorporation of histone variants and nucleosome disassembly and reassembly by histone chaperones. In addition to these activities, there are a number of non-histone chromatin components that are directly involved in the modulation of chromatin associated with transcription. In yeast, one of these factors is the HMG-like protein Spt2p previously shown to participate directly in the process of nucleosome reassembly in the wake of RNA polymerase II movement along transcribed DNA. In this work, we show that Spt2p is directly phosphorylated by the casein kinase II (CKII) and we demonstrate that this modification inhibits its association with chromatin. Our findings indicate that CKII disrupts the interaction of Spt2p with the histone chaperone Spt6p. Interestingly, we also found that direct phosphorylation of Spt6p by CKII stimulates the association of this factor with another partner, Iws1p. This association is absolutely required for the refolding of nucleosomes during elongation. Furthermore, this positive regulation of the Spt6p/Iws1p complex by CKII modulates directly the association of this complex with the H3K36 methyltransferase Set2p. Finally, we show that phosphorylation of Spt6p by CKII is essential to the inhibition of cryptic promoters and spurious transcription. Taken together, our results suggest a new mechanism whereby CKII directs chromatin structure refolding in coding regions by modulating the interaction of the essential histone chaperone Spt6p with its partners Spt2p, Iws1p and Set2p.
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Influência das proteínas motoras e CK2 no processo de interação Leishmania braziliensis-macrófago. / Influence of motor proteins and CK2 in the interaction between Leishmania braziliensis-macrophageElisama Azevedo Cardoso 30 May 2012 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / O gênero Leishmania é responsável por um grupo de parasitoses que podem variar desde lesões auto-limitadas até severa injúria de tecido. Estes protozoários são parasitos obrigatoriamente intracelulares, tendo o macrófago como célula hospedeira. Durante o processo de fagocitose os macrófagos utilizam a maquinaria presente em seu citoesqueleto, a qual compreende a participação de miosinas e actinas, para a formação do fagossoma. Estas proteínas estão envolvidas em processos como citocinese, tráfego intracelular de organelas e vesículas, podendo interferir com a penetração do parasito. Alguns trabalhos vêm sendo realizados visando analisar a expressão, localização e o papel de miosina e de actina em Leishamania. Estudos associados à participação destas proteínas motoras em processo vitais para a biologia do parasito podem auxiliar na compreensão de seu ciclo e permitir a geração de conhecimentos que apontem novos alvos para intervenções terapêuticas. Uma vez que a miosina é necessária no transporte intracelular, alguns estudos tentam analisar a expressão e a localização intracelular de miosinas na Leishmania. Estudos mostram a presença de atividades cinásicas do tipo CK2 em diversos tripanossomatídeos, ligadas ao crescimento celular, morfologia e infectividade de promastigotas para macrófagos. Desta maneira, como objetivo desta tese temos o estudo da participação das miosinas, actina e CK2 na infectividade da Leishmania braziliensis. Além disso, investigamos a influência destas proteínas na produção de citocinas pelos macrófagos e em sua atividade microbicida. Lipoxina, latrunculina, nocodazol e TBB promoveram uma inibição de, pelo menos, 50% no crescimento de L. braziliensis. A CK2 secretada pelo parasito foi purificada de seu sobrenadante através de coluna de HPLC e a fração 44 mostrou ser a fração correspondente a esta enzima. A lipoxina e o TBB promoveram a inibição da atividade desta enzima ao contrário da latrunculina que forneceu aumento dessa atividade. O pré-tratamento dos parasitos ou dos macrófagos com lipoxina, latrunculina, nocodazol e TBB promoveram uma inibição de cerca de 50% no índice de associação entre Leishmania e macrófagos não-ativados ou ativados por LPS e IFN-γ. Latrunculina e TBB aumentaram a produção de NO em macrófagos não ativados e não infectados enquanto que em macrófagos ativados à exceção do TBB, todas as drogas diminuíram a produção de NO. A liberação de IL-10 foi diminuída após tratamento com todas as drogas em macrófagos não ativados em ausência de promastigotas e ativados em presença do parasito. Para a produção de TNF-α há uma redução significativa em macrófagos ativados não infectados tratados com latrunculina, nocodazol e TBB. Quando ativados e infectados, os macrófagos tratados com lipoxina tiveram a produção dessa citocina aumentada, ao contrário do TBB em que houve redução. Quando avaliamos a integridade da actina verificamos que todos os compostos foram capazes de influenciar a distribuição dessa proteína, levando a uma redução no índice de associação. Ao transfectarmos a cauda da miosina Va fusionada a GFP nos macrófagos observamos que houve uma diminuição de 94% no índice de associação. Nossos dados confirmam a importância da CK2, actina e miosina Va no processo de interação parasito- macrófago. / The members of the genus Leishmania are responsible for a group of parasitic diseases that vary from self-limited lesions to severe tissue injury. These parasites are obligatory intracellular protozoa that use human macrophages as hosts. Their entry into macrophages occurs through phagocytosis that involves the cytoskeleton, comprised of actin and myosin, to form the phagosomes. Actin and myosin are also involved in other cellular processes including cytokinesis, intracellular trafficking of organelles and vesicles, which may interfere with parasite entry. Previous studies have analyzed the expression, localization and role of both actin and myosin in Leishmania. Their participation in various processes vital to the biology of the parasite suggests new targets for therapeutic intervention. Since myosin is required for intracellular transport, attempts have been made to examine the intracellular localization and expression of Leishmania myosin. Studies have shown the presence of kinase activity of CK2 in various trypanosomes linked to cell growth, morphology and infectivity of macrophages by promastigotes. Therefore, the objective of this thesis was to investigate the role of myosin, actin and CK2 for infectivity of Leishmania brasiliensis. In addition, the influence of these proteins in cytokine production and microbiocidal activity in human macrophages was investigated. Drug-based inhibition using lipoxin, latrunculin, nocodozole and TBB caused at least a 50% decrease in growth of L. brasiliensis. The CK2 secreted by the parasite was purified from the supernatant of cultures by HPLC and fraction 44 was determined to correspond to this protein. Lipoxin and TBB were shown to inhibit CK2 activity, contrary to latrunculin that increased its activity. Pretreatment of parasites or macrophages with either lipoxin, latrunculin, nocodozole or TBB lead to a ~50% decrease in the association index between L. brasiliensis and macrphages, with or without preactivation with LPS and INF-γ. Latrunculin and TBB increased the NO in non-activated macrophages and parasites did not infect activated macrophages treated with latrunculin. The other drugs all decreased the production of NO. The release of IL-10 was decreased after treatment with all drugs in non-activated macrophages in the presence of parasites and in activated macrophages in the presence of parasites. For the production of TNF-α, there was a significant decrease in activated macrophages by latrunculin, nocodozole and TBB. When macrophages were activated and infected, treatment with lipoxin showed an increase in the production of this cytokine, opposite to the reduction observed with TBB. When evaluating the integrity of actin, all compounds were determined to influence the organization of actin leading to a decrease in the association index. The transfection of the tail of myosin Va fused to eGFP into macrophages was observed to decrease the association index by 94%. The data confirm the importance of CK2, actin and myosin Va in the process of interactions between parasites and macrophages.
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Influência das proteínas motoras e CK2 no processo de interação Leishmania braziliensis-macrófago. / Influence of motor proteins and CK2 in the interaction between Leishmania braziliensis-macrophageElisama Azevedo Cardoso 30 May 2012 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / O gênero Leishmania é responsável por um grupo de parasitoses que podem variar desde lesões auto-limitadas até severa injúria de tecido. Estes protozoários são parasitos obrigatoriamente intracelulares, tendo o macrófago como célula hospedeira. Durante o processo de fagocitose os macrófagos utilizam a maquinaria presente em seu citoesqueleto, a qual compreende a participação de miosinas e actinas, para a formação do fagossoma. Estas proteínas estão envolvidas em processos como citocinese, tráfego intracelular de organelas e vesículas, podendo interferir com a penetração do parasito. Alguns trabalhos vêm sendo realizados visando analisar a expressão, localização e o papel de miosina e de actina em Leishamania. Estudos associados à participação destas proteínas motoras em processo vitais para a biologia do parasito podem auxiliar na compreensão de seu ciclo e permitir a geração de conhecimentos que apontem novos alvos para intervenções terapêuticas. Uma vez que a miosina é necessária no transporte intracelular, alguns estudos tentam analisar a expressão e a localização intracelular de miosinas na Leishmania. Estudos mostram a presença de atividades cinásicas do tipo CK2 em diversos tripanossomatídeos, ligadas ao crescimento celular, morfologia e infectividade de promastigotas para macrófagos. Desta maneira, como objetivo desta tese temos o estudo da participação das miosinas, actina e CK2 na infectividade da Leishmania braziliensis. Além disso, investigamos a influência destas proteínas na produção de citocinas pelos macrófagos e em sua atividade microbicida. Lipoxina, latrunculina, nocodazol e TBB promoveram uma inibição de, pelo menos, 50% no crescimento de L. braziliensis. A CK2 secretada pelo parasito foi purificada de seu sobrenadante através de coluna de HPLC e a fração 44 mostrou ser a fração correspondente a esta enzima. A lipoxina e o TBB promoveram a inibição da atividade desta enzima ao contrário da latrunculina que forneceu aumento dessa atividade. O pré-tratamento dos parasitos ou dos macrófagos com lipoxina, latrunculina, nocodazol e TBB promoveram uma inibição de cerca de 50% no índice de associação entre Leishmania e macrófagos não-ativados ou ativados por LPS e IFN-γ. Latrunculina e TBB aumentaram a produção de NO em macrófagos não ativados e não infectados enquanto que em macrófagos ativados à exceção do TBB, todas as drogas diminuíram a produção de NO. A liberação de IL-10 foi diminuída após tratamento com todas as drogas em macrófagos não ativados em ausência de promastigotas e ativados em presença do parasito. Para a produção de TNF-α há uma redução significativa em macrófagos ativados não infectados tratados com latrunculina, nocodazol e TBB. Quando ativados e infectados, os macrófagos tratados com lipoxina tiveram a produção dessa citocina aumentada, ao contrário do TBB em que houve redução. Quando avaliamos a integridade da actina verificamos que todos os compostos foram capazes de influenciar a distribuição dessa proteína, levando a uma redução no índice de associação. Ao transfectarmos a cauda da miosina Va fusionada a GFP nos macrófagos observamos que houve uma diminuição de 94% no índice de associação. Nossos dados confirmam a importância da CK2, actina e miosina Va no processo de interação parasito- macrófago. / The members of the genus Leishmania are responsible for a group of parasitic diseases that vary from self-limited lesions to severe tissue injury. These parasites are obligatory intracellular protozoa that use human macrophages as hosts. Their entry into macrophages occurs through phagocytosis that involves the cytoskeleton, comprised of actin and myosin, to form the phagosomes. Actin and myosin are also involved in other cellular processes including cytokinesis, intracellular trafficking of organelles and vesicles, which may interfere with parasite entry. Previous studies have analyzed the expression, localization and role of both actin and myosin in Leishmania. Their participation in various processes vital to the biology of the parasite suggests new targets for therapeutic intervention. Since myosin is required for intracellular transport, attempts have been made to examine the intracellular localization and expression of Leishmania myosin. Studies have shown the presence of kinase activity of CK2 in various trypanosomes linked to cell growth, morphology and infectivity of macrophages by promastigotes. Therefore, the objective of this thesis was to investigate the role of myosin, actin and CK2 for infectivity of Leishmania brasiliensis. In addition, the influence of these proteins in cytokine production and microbiocidal activity in human macrophages was investigated. Drug-based inhibition using lipoxin, latrunculin, nocodozole and TBB caused at least a 50% decrease in growth of L. brasiliensis. The CK2 secreted by the parasite was purified from the supernatant of cultures by HPLC and fraction 44 was determined to correspond to this protein. Lipoxin and TBB were shown to inhibit CK2 activity, contrary to latrunculin that increased its activity. Pretreatment of parasites or macrophages with either lipoxin, latrunculin, nocodozole or TBB lead to a ~50% decrease in the association index between L. brasiliensis and macrphages, with or without preactivation with LPS and INF-γ. Latrunculin and TBB increased the NO in non-activated macrophages and parasites did not infect activated macrophages treated with latrunculin. The other drugs all decreased the production of NO. The release of IL-10 was decreased after treatment with all drugs in non-activated macrophages in the presence of parasites and in activated macrophages in the presence of parasites. For the production of TNF-α, there was a significant decrease in activated macrophages by latrunculin, nocodozole and TBB. When macrophages were activated and infected, treatment with lipoxin showed an increase in the production of this cytokine, opposite to the reduction observed with TBB. When evaluating the integrity of actin, all compounds were determined to influence the organization of actin leading to a decrease in the association index. The transfection of the tail of myosin Va fused to eGFP into macrophages was observed to decrease the association index by 94%. The data confirm the importance of CK2, actin and myosin Va in the process of interactions between parasites and macrophages.
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Identification and characterization of Nuclear Localization Signal of pRS1 protein / Identifikation und Charakterisierung der Kernlokalisierungssequenz von pRS1 ProteinLeyerer, Marina January 2005 (has links) (PDF)
RS1, ein Genprodukt von RSC1A1, ist entscheidend an der zelldichteabhängigen transkriptionellen Herunterregulation von SGLT1 in LLC-PK1 Zellen und an der post-transkriptionellen Herunterregulation von SGLT1 im Dünndarm beteiligt. RS1 hemmt die Freigabe von SGLT1 enthaltenden Vesikeln aus dem trans-Golgi Netzwerk und wandert in den Zellkern wo es die Transkription von SGLT1 inhibiert. In der vorliegenden Arbeit identifizierten wir eine neuartige 21 Aminosäuren lange nicht-konventionelle Kernlokalisierungssequenz (RS1 NLS) in RS1 vom Schwein (pRS1), die für die Kernlokalisierung von pRS1 nötig und ausreichend ist. RS1 NLS ist von zwei Konsensussequenzen für Phosphorylierung umrahmt, welche für die konfluenzabhängige Regulierung von RS1 NLS verantwortlich sind: Eine Stelle für Casein Kinase 2 (CK2) in der Position 348 und eine Stelle für Protein Kinase C (PKC) in der Position 370. Es wurde eine konfluenz-abhängige Kernlokalisierung mit den Aminosäuren 342-374 (R-NLS-Reg) beobachtet. Die Mutationsanalyse deutete darauf hin, dass Kernlokalisierung durch die Phosphorylierung von Serin 370 (PKC) geblockt wird, und dass die Phosphorylierung von Serin 348 (CK2) die Phosphorylierung von Serin 370 verhindert. Da während der Konfluenz CK2 herunterreguliert und PKC hochreguliert wird, deuten unsere Daten darauf hin, dass die Kernlokalisierung die zelldichteabhängigen Veränderungen in der transkriptionellen und posttranskriptionellen Hemmung von SGLT1 Expression koordiniert. / RS1, a gene product of RSC1A1, is critically involved in cell density-dependent transcriptional down-regulation of SGLT1 in LLC-PK1 cells and in the post-transcriptional down-regulation of SGLT1 in small intestine. RS1 inhibits the release of SGLT1 containing vesicles from the trans-Golgi network and migrates into the nucleus where it inhibits transcription of SGLT1. In the present work we identified a novel 21 amino acids-long nonconventional nuclear localization sequence (RS1 NLS) in porcine RS1 (pRS1) that is necessary and sufficient for nuclear targeting of pRS1. RS1 NLS is framed by two consensus sequences for phosphorylation which are responsible for confluence-dependent regulation of RS1 NLS: a casein kinase 2 (CK2) site in position 348 and a protein kinase C (PKC) site in position 370. Confluence-dependent nuclear targeting was observed with amino acids 342-374 (R-NLS-Reg). Mutation analysis suggested that nuclear targeting is blocked by phosphorylation of serine 370 (PKC) and that phosphorylation of serine 348 (CK2) prevents phosphorylation of serine 370. Because CK2 is down-regulated and PKC is up-regulated during confluence of LLC-PK1 cells, our data suggest that nuclear localization coordinates cell density-dependent changes in transcriptional and post-transcriptional inhibition of SGLT1 expression.
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Casein-Kinase-2-Beta und neuronale Entwicklungsprozesse / Casein kinase 2ß and neural development - examinations employing the neurogenetic model organism Drosophila melanogasterKibler, Eike Mathias U. January 2002 (has links) (PDF)
Die Pilzkörper von Drosophila melanogaster stellen eine für die Lebensfähigkeit dieses Organismus entbehrliche Gehirnstruktur dar. Die Entwicklungsprozesse, die der Bildung dieser zentralnervösen Struktur zugrunde liegen, sind gut erforscht. Die neuronalen Stammzellen, die für die Bildung dieser Gehirnstruktur verantwortlich sind, sind identifiziert und experimentell gut zugänglich. Daher bietet sich die Drosophila-Pilzkörperentwicklung als neurogenetisches Modellsystem an, grundlegende Mechanismen der Gehirnentwicklung durch die Untersuchung von Pilzkörperstrukturmutanten zu erforschen. In dieser Arbeit wurde mushroom bodies undersized P1 (mbuP1) als eine durch Transposon- Insertion in den Casein-Kinase-2ß-Genlokus verursachte, hypomorphe Mutation identifiziert, die zu einer starken Verringerung der Anzahl der die Pilzkörper bildenden intrinsischen Neurone führt. Eine Reversion des mbuP1-Pilzkörperphänotyps konnte unter anderem durch die Expression von Casein-Kinase-2ß-(CK2ß)-Transgenen im mbuP1-Hintergrund erzielt werden. Durch Rekombination wurde ein fertiler mbuP1-Stamm etabliert, der nun die Untersuchung der zellulären mbuP1-Defekte ermöglicht. Eine partielle, letale Deletion der CK2ß-Transkriptionseinheit wurde erzeugt. Die Letalität dieser Deletion konnte sowohl durch ein genomisches CK2ß-Transgen als auch durch die ubiquitäre Expression einer CK2ß-cDNA gerettet, und hierdurch die essentielle Funktion der CK2ß-Transkriptionseinheit in Drosophila belegt werden. Durch die ubiquitäre Expression von in vitro-mutagenisierten CK2ß-cDNAs im CK2ß-Letalhintergrund wurde gezeigt, daß die Phosphorylierung der regulatorischen CK2ß-Untereinheit durch die katalytisch aktive CK2α-Untereinheit kein lebensnotwendiger Prozess ist. Gleichartige Experimente wurden zur Untersuchung der funktionellen Bedeutung eines CK2ß-Zinkfingermotivs und eines CK2ß-Destruction-Box-Motivs durchgeführt. Diese legen nahe, daß das Zinkfingermotiv im Gegensatz zum Destruction-Box-Motiv für die in vivo-Funktion der CK2ß-Untereinheit essentiell ist. Expression der in vitro-mutagenisierten CK2ß-cDNAs im mbuP1-Hintergrund werden die funktionelle Bedeutung der ausgetauschten Aminosäuren für die Pilzkörperentwicklung zeigen. Eine letale genetische Interaktion von mbuP1 mit einer Mutation des Drosophila-MAP-Kinase-Gens rolled (rlSem) und eine lebensfähige Interaktion von mbuP1 mit einer Mutation des Drosophila-S6-Kinase-p90rsk-Gens ignorant (ignP1), bei der Flügel- und Augenent-wicklungsdefekte zu beobachten sind, wurden gefunden. Es wurde zudem gezeigt, daß rlSem als Suppressor des Pilzkörperphänotyps eines schwächeren mbu-Allels wirkt. Hierdurch konnte eine Beteiligung der Casein-Kinase-2 an MAP-Kinase-Signalübertragungswegen wahrscheinlich gemacht werden. / Mushroom bodies are dispensable for the developing and adult Drosophila fly. The developmental processes underlying mushroom body formation are well studied, the neural stem cells responsable for their development are identified and experimentally well accessable. Therefore Drosophila mushroom body development can be used as a powerful neurogenetic model system to find out about fundamental mechanisms underlying brain development by studying mutant flies showing aberrant mushroom body development. In the course of this work, mushroom bodies undersized P1 (mbuP1) was identified as a hypomorphic casein kinase 2ß-allele (CK2ß) caused by the insertion of transposable elements in the casein kinase 2ß gene locus. The mbuP1-mutation leads to a drastic reduction of the number of intrinsic neurons forming the adult mushroom body. Expression of transgenic CK2ß in a mbuP1-mutant background led to a reversion of the mbuP1-associated mushroom body phenotype. Fertility of mbuP1-flies could be partially restored by recombining the original mbuP1{P3843/2}-chromosome with a w1118-chromosome. This will allow future studies to identify the cellular defects caused by mbuP1. A partial deletion of the CK2ß gene causes lethality which could be rescued by either a genomic CK2ß-transgene or by ubiquitous expression of a CK2ß-cDNA. Therefore, CK2ß has been shown to be an essential gene in Drosophila. By ubiquitous expression of in vitro mutagenized CK2ß-cDNAs in a CK2ß-lethal background, a non-essential role of phosphorylation of the regulatory CK2ß-subunit by the catalytically active CK2α-subunit could be shown. Similar experiments were performed to examine the role of a CK2ß-zincfinger motif and a CK2ß-destruction-box motif. The obtained results suggest a non-essential in vivo function for the destruction-box motif and an essential in vivo function for the zincfinger-motif. Expression of the in vitro mutagenized CK2ß-cDNAs in a mbuP1-background will reveal the functional significance of the substituted amino acids for mushroom body development. Performed genetic interaction studies showed a lethal interaction of mbuP1 with a mutation in the Drosophila-MAP-kinase gene rolled (rlSem) and a viable genetic interaction with a mutation in the Drosophila-S6-kinase-p90rsk gene ignorant (ignP1) which revealed defects in wing formation and eye development. It also could be shown that rlSem acts as a suppressor of the mushroom body phenotype associated with a weaker mbu-allele. These observations point towards a role of casein kinase 2 in MAP-kinase signalling.
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Regulation of adenosine transporter and AMPA receptor subunit localization by protein kinase CK2 in rat hippocampusLongmuir, Nicole 25 July 2011
The control of extracellular adenosine is crucial to the regulation of synaptic transmission and neuroprotection. Equilibrative nucleoside transporters (ENTs) are highly expressed in the hippocampus and widely accepted as critical regulators of adenosine tone. However, the mechanisms regulating the surface distribution and transport function of ENTs are largely unknown. Since ENT1 and ENT2 contain consensus sequences for phosphorylation by protein kinase CK2, and because this protein has been reported to regulate synaptic plasticity and ENT function in non-neuronal systems, the present thesis outlines the hypothesis that CK2-induced phosphorylation of ENTs is important for their cellular localization and thus the regulation of adenosine tone and synaptic transmission. Here, a functional interaction between adenosine CK2, ENTs and AMPA receptors in the hippocampus is reported. Western blot analysis shows that a variety of CK2 inhibitors (DMAT, TBB and DRB) significantly reduced the density of ENT1 and ENT2 proteins in hippocampal membrane fractions, suggesting that CK2-mediated phosphorylation of ENTs promotes their surface localization. In contrast, it was found that the ENT1 inhibitor NBTI significantly increased in the membrane localization of ENT1, relative to the control. Moreover, ENTs were found to immunoprecipitate with GluR1 and GluR2-containing AMPA receptors; and CK2 inhibitors caused a decrease in the membrane localization of GluR2 and GluR1 AMPA receptors. These results suggest a novel signaling complex linking CK2-regulated adenosine transport to AMPA receptor trafficking in the rat hippocampus. Although the physiological significance of these findings requires further investigation, this thesis provides insight into an adenosine regulation pathway that may be important for the regulation of synaptic transmission and neuroprotection in the rat hippocampus.
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Regulation of adenosine transporter and AMPA receptor subunit localization by protein kinase CK2 in rat hippocampusLongmuir, Nicole 25 July 2011 (has links)
The control of extracellular adenosine is crucial to the regulation of synaptic transmission and neuroprotection. Equilibrative nucleoside transporters (ENTs) are highly expressed in the hippocampus and widely accepted as critical regulators of adenosine tone. However, the mechanisms regulating the surface distribution and transport function of ENTs are largely unknown. Since ENT1 and ENT2 contain consensus sequences for phosphorylation by protein kinase CK2, and because this protein has been reported to regulate synaptic plasticity and ENT function in non-neuronal systems, the present thesis outlines the hypothesis that CK2-induced phosphorylation of ENTs is important for their cellular localization and thus the regulation of adenosine tone and synaptic transmission. Here, a functional interaction between adenosine CK2, ENTs and AMPA receptors in the hippocampus is reported. Western blot analysis shows that a variety of CK2 inhibitors (DMAT, TBB and DRB) significantly reduced the density of ENT1 and ENT2 proteins in hippocampal membrane fractions, suggesting that CK2-mediated phosphorylation of ENTs promotes their surface localization. In contrast, it was found that the ENT1 inhibitor NBTI significantly increased in the membrane localization of ENT1, relative to the control. Moreover, ENTs were found to immunoprecipitate with GluR1 and GluR2-containing AMPA receptors; and CK2 inhibitors caused a decrease in the membrane localization of GluR2 and GluR1 AMPA receptors. These results suggest a novel signaling complex linking CK2-regulated adenosine transport to AMPA receptor trafficking in the rat hippocampus. Although the physiological significance of these findings requires further investigation, this thesis provides insight into an adenosine regulation pathway that may be important for the regulation of synaptic transmission and neuroprotection in the rat hippocampus.
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Non-redundant roles of E(spl) proteins during Drosophila neurogenesisKim, Jee-Eun, January 1900 (has links)
Thesis (M.S.)--West Virginia University, 2008. / Title from document title page. Document formatted into pages; contains vii, 110 p. : ill. (some col.). Includes abstract. Includes bibliographical references (p. 94-107).
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