Global ETD Search

71	Caracterização de subpopulações de Leucemia Mielóide Aguda portadora do rearranjo MLL quanto à resposta diferencial ao tratamento em longo prazo com Citarabina / Characterization of subpopulations of Acute Myeloid Leukemia harboring MLL rearrangements according to differential response to the long-term treatment with Cytarabine Larissa Oliveira Guimarães 23 October 2015 (has links) A natureza heterogênea da Leucemia Mielóide Aguda (LMA) tornou-se um desafio para o sucesso da quimioterapia convencional com o agente Citarabina (Ara-C), especialmente em leucemias com prognóstico desfavorável, como aquelas portadoras do rearranjo MLL. Visto que as células de LMA-MLL são consideradas sensíveis ao Ara-C quando comparadas às leucemias que não apresentam o rearranjo, mas a recaída à doença é frequente, a presente tese propôs estudar a relação entre características biológicas relacionadas às bases da resistêmcia ao Ara-C em LMA-MLL. A abordagem proposta foi a seleção de subpopulações de linhagens celulares portadoras do rearranjo MLL submetidas ao tratamento em longo prazo com Ara-C, comparando-as com as linhagens não expostas à droga. As células foram caracterizadas quanto: 1) ao potencial proliferativo na presença ou ausência de Ara-C; 2) a distribuição das células no ciclo celular; 3) a distribuição de marcadores clássicos de superfície de células-tronco hematopoiéticas, CD34 e CD38; e 4) o perfil de expressão global dos RNAs transcritos. O tratamento em longo prazo selecionou células mais resistentes ao Ara-C que as células parentais. Além disso, quanto ao ciclo celular, as células selecionadas com Ara-C apresentaram apoptose reduzida (fase sub-G1), acúmulo na fase de síntese (fase S) e aumento da capacidade proliferativa após reexposição à droga (fase G2-M). Quanto à análise de marcadores de células-tronco hematopoiéticas, observou-se que após o tratamento em longo com Ara-C, uma das linhagens celulares apresentou distribuição bimodal do marcador CD38. Quando separadas por sorting em citometria de fluxo, observou-se que as subpopulações com níveis distintos de expressão de CD38, denominadas MV-4-11 CD38High e MV-4-11 CD38Low apresentaram resposta distinta ao tratamento com Ara-C. Quando avaliadas quanto ao perfil global de expressão gênica, constatou-se que MV-4-11 CD38High eram mais semelhantes às células parentais, e que MV-4-11 CD38Low formavam um grupo isolado, distinto das outras duas populações celulares. A análise de ontologia gênica (GO) evidenciou que entre as categorias mais representativas de processos biológicos estavam atividades associadas à capacidade proliferativa, ao desenvolvimento e a resposta a estímulos. As análises de agrupamentos hierárquicos mostraram que: 1) o cluster de genes do desenvolvimento HOXA estava mais expresso nas células MV-4-11 CD38Low do que em MV-4-11 CD38High, que apresentaram expressão mais elevada do cluster HOXB; 2) o gene HOX mais diferencialmente expresso foi HOXA13, associado na literatura com prognóstico desfavorável em outros tipos de câncer; 3) dos genes associados a resposta a estímulos, o único relacionado à via de metabolização do Ara-C diferencialmente expresso entre as linhagens foi NME1; 4) aqueles que participam das vias de reparo de pareamento incorreto, reparo por excisão de bases e por excisão de nucleotídeos encontraram-se mais expressos nas células MV-4-11 CD38High que em MV-4-11 CD38Low. Além disso, diversas quinases dependentes de ciclinas (CDKs) também estiveram diferencialmente expressas entre MV-4-11 CD38High e MV-4-11 CD38Low. Sugere-se por fim, que o modelo in vitro proposto neste estudo para simular a situação de resistência ao Ara-C em subpopulações de LMA-MLL, demonstrou que os mecanismos de resposta à Citarabina nesta doença, vão além de alterações na detoxificação e metabolização da droga, e parecem mais associados a vantagens proliferativas e do desenvolvimento das células leucêmicas. Estas vias devem ser exploradas como alvos potenciais na terapia combinada ao Ara-C. / The heterogeneity of Acute Myeloid Leukemia (AML) became a challenge for the success of the conventional chemotherapy agent Cytarabine (Ara-C), especially in leukemias with poor prognosis, as those harboring MLL rearrangement. Since AML-MLL cells are considered sensitive to Ara-C when compared with leukemias that do not carry the rearrangement, but relapse is frequent, the present dissertation proposed to study the relationship between biological characteristics related to the basis of chemoresistance to Ara-C in AML-MLL. We proposed an approach based on the selection of subpopulations of cell lines bearing MLL rearrangement submitted to the long-term treatment with Ara-C, comparing them with the cell lines that were not previously exposed to the drug. The cells were characterized according to: 1) the proliferative potential in the presence and absence of Ara-C; 2) the distribution of the cells in the cell cycle; 3) distribution of hematopoietic stem cell classic surface markers, CD34 and CD38; and, 4) global expression profile of transcribed RNAs. The long-term treatment selected cells that are more resistant to Ara-C than the cells that were not previously treated (parental cells). Besides, according to cell cycle, the cells selected by Ara-C treatment present decreased apoptosis (sub-G1 phase), accumulation in the synthesis phase (S-phase) and increase in the proliferative capability after re-exposition to the drug (G2-M phase). Regarding the hematopoietic stem cell markers, we observed that after Ara-C long-term treatment, one of the cell lines exhibited a bimodal distribution of the CD38 marker. When sorted by flow cytometry, we observed that both subpopulations with distinct levels of CD38 expression, called MV-4-11 CD38High and MV-4-11 CD38Low also showed distinct response to Ara-C. When evaluated regarding to their global gene expression profiles, we verified that MV-4-11 CD38High were more closely related to the parental cells, and MV-4-11 CD38Low made up an isolated group, distinct of the other cell populations. Gene ontology (GO) analysis revealed that among the most representative categories of biological processes, activities associated with proliferative capability, development and response to stimuli were included. The hierarchical clustering analysis showed that: 1) the cluster HOXA of genes of development was more expressed in the MV-4-11 CD38Low than in the MV-4-11 CD38High cells, that presented increased expression of HOXB cluster; 2) the most differentially expressed HOX gene was HOXA13, which according to the literature is associated with poor prognosis in other types of cancer; 3) among the genes associated with response to stimuli, the only one related to Ara-C-metabolizing pathway that was differentially expressed between the cell lines was NME1; 4) those genes that take part in the mismatch repair, base excision repair and nucleotide excision repair pathways were more expressed in the MV-4-11 CD38High than in the MV-4-11 CD38Low cells. Additionally, several cyclin-dependent kinases (CDKs) were also differentially expressed between MV-4-11 CD38High and MV-4-11 CD38Low. Finally, we suggest that the in vitro model proposed in this study to mimic the situation of chemoresistance to Ara-C in subpopulations of AML-MLL, showed that the mechanisms of Ara-C response in this disease, go beyond changes in drug detoxification and metabolization, and seem more associated to proliferative and development advantages of the leukemic cells. These pathways should be explored as potential targets to Ara-C combination therapies. Ara-C genes HOX Leucemia Mielóide Aguda proteína MLL reparo de DNA Acute Myeloid Leukemia Ara-C DNA repair HOX genes MLL protein
72	Expressão de Ultrabithorax e o Desenvolvimento Casta-Específico de Apêndices Torácicos de Apis mellifera / Ultrabithorax Expression and Development of Caste-Specific Thoracic Appendages in Apis mellifera Ana Durvalina Bomtorin 12 April 2013 (has links) A diferenciação morfo-fisiológica entre rainhas e operárias de Apis mellifera decorre da alimentação recebida durante o desenvolvimento larval. Dentre as diferenças morfológicas entre as duas castas encontram-se estruturas especializadas para a coleta de pólen e própolis, localizadas nas pernas metatorácicas das operárias, ausentes nas pernas de rainhas. Os padrões de expressão de Ultrabithorax (Ubx) durante o desenvolvimento de operárias e rainhas estão associados aos padrões de cerdas das pernas de fêmeas adultas. Pernas mesotorácicas de operárias apresentam estruturas descritas como importantes na coleta de pólen, ausentes em rainhas. Por outro lado, as asas não possuem estruturas casta-específicas. No presente trabalho, análises globais de transcrição gênica por hibridação de lâminas de microarrays a partir de RNA total de pernas metatorácicas de operárias e rainhas em três estágios do desenvolvimento mostram 1952 genes diferencialmente expressos. Discos de pernas metatorácicas de larvas no início do quinto estágio larval, quando comparados aos de estágios mais tardios no desenvolvimento, têm alto níveis de transcritos de ativadores de Ubx, o qual está 25 vezes mais expresso em estágios subseqüentes do desenvolvimento. Buscas por motivos de ligação de fatores de transcrição nos promotores dos grupos de genes diferencialmente expressos revelam que os motivos para ligação de Ubx, Zeste e Twist estão super-representados em um dos conjuntos analisados. Dentro deste grupo, estão presentes genes cujos ortólogos em Drosophila são controlados por Ubx, como o caso do gene lola. Análises do processamento do mRNA de Ubx em pernas e asas de ambas as castas mostram que são produzidas três isoformas diferentes quanto à presença de dois microéxons (m1 and m2), que contêm 42 nt and 53 nt, respectivamente. A isoforma IIa-like, que contém o m2, entretanto, parece não ser capaz de produzir uma proteína Hox, já que possui um códon de terminação antes do homeodomínio. O perfil de transcrição diferencial de Ubx entre as castas está associado a apêndices que apresentam diferenças morfológicas, sendo Ubx mais transcrito em pernas meso e metatorácicas de operárias que rainhas. Quando analisadas as porcentagens de expressão de cada isoforma nos apêndices, claramente a isoforma IVa-like, sem microéxons, é a mais transcrita em todos os tecidos. Entretanto, nota-se que nas asas anteriores, onde há menos Ubx, a isoforma IIa-like é proporcionalmente mais transcrita que II nos outros apêndices. Destaca-se uma tendência à inclusão do microéxon m1 (isoforma IIIa-like) ao mRNA de Ubx transcrito em asas posteriores e pernas de rainhas em comparação a operárias, em detrimento da isoforma IVa-like. Análises do uso da região 3UTR em pupas de operárias mostram que há um microssatélite transcrito na porção distal da região 3UTR deUbx. A estrutura secundária predita agrupa separadamente as regiões codificadora e as regiões 3UTR proximal e distal. Análises de seqüenciamento de última geração revelaram que oito dos 51 microRNAs com sítios-alvo preditos na região 3UTR de Ubx estão mais expressos em asas anteriores, e outros dois em asas posteriores. Assim, nossos resultados mostram que o controle da expressão diferencial de Ubx é dada pela ativação desse gene por fatores de transcrição que se ligam ao promotor, controle do splicing alternativo, e expressão de microRNAs diferencial em cada casta e apêndice, controlando, assim, a morfogênese diferencial dos apêndices de fêmeas observada em A. mellifera. / Along with differences in physiological and behavioral characteristics, workers and queens of Apis mellifera also differ in appendage morphology. Some appendage specializations in the hind legs of honeybee workers, which are highly specialized pollinators, deserve special attention. The hind tibia of the worker has an expanded bristle-free region used for carrying pollen and propolis, the corbicula. In queens, this structure is absent. Although these morphological differences have been well characterized, the genetic inputs triggering the development of this alternative morphology have remained unknown. Through microarray analysis, we detected 1,952 genes that are differentially expressed during worker versus queen hind leg development. The gene expression signatures of the two castes have similar patterns of genes controlling development. At the beginning of the last larval instar, Ultrabithorax (Ubx) activators are more strongly expressed than in prepupae and early pupae; at this time Ubx expression is approximately 25 times higher. Within the gene expression signature, we identified a cluster formed by genes in which Ubx, Twist and Zeste binding sites are over-represented. This cluster includes genes for which Drosophila orthologs are known to be bound by Ubx, as in the case of lola. We also tested the extent of Ubx mRNA processing during wing and leg development. Unexpectedly, we found Ubx alternative splicing in both workers and queens; there were two microexons (m1 and m2) encoding 42 nt and 53 nt, respectively, arguing against the hypothesis that alternative splicing occurs exclusively within the Diptera. Inclusion of the m2 exon inserts a stop codon upstream from the exon containing the homeodomain, producing a truncated protein. Moreover, these bee microexons conserve the nucleotides known to be important for alternative splicing in Drosophila. During bee wing development, Ubx mRNA isoforms are transcribed in similar amounts in both castes; however, during leg development, queens produce 60% of the Ubx levels transcribed by workers. Analysis of 3UTR usage during bee development revealed a microsatellite region transcribed within the Ubx 3UTR. The predicted secondary structure locations separated the coding region into three branches and the proximal and the distal 3UTR regions. Deep-sequencing analysis revealed that eight out of 51 miRNAs predicted to target the Ubx mRNA are more highly expressed in worker forewings and two are more expressed in the hindwings. Therefore, we conclude that Ubx differential expression is activated by transcription factors that bind to its promoter, by control of alternative splicing, and moreover by microRNAs differentially expressed according to tissue and caste, resulting in differential morphogenesis of the hind leg in honeybee females. Apis mellifera Asas Castas Genes diferencialmente expressos Hox microRNA Pernas Polifenismo Apis mellifera Castes Differentially expressed genes Hox Leg microRNA Polyphenism Wing
73	Décryptage des interactions moléculaires entre les protéines HOX et leurs partenaires / Deciphering the molecular interactions between Hox proteins and their partners Dard, Amélie 13 October 2016 (has links) Les gènes Hox sont présents dans la majorité des espèces du règne animal et sont nécessaires à la différenciation coordonnée des cellules le long de différents axes longitudinaux au cours du développement embryonnaire. Ils sont impliqués dans le maintien de l'homéostasie de nombreux tissus à l'âge adulte. Des mutations affectant leur expression et/ou leur fonction sont ainsi retrouvées dans de nombreux cancers chez l'Homme.Les gènes Hox codent pour des facteurs de transcription reconnaissant des séquences nucléotidiques très similaires. L'interaction avec une classe évolutivement conservée de cofacteurs, les protéines Pbx et Meis, permet aux protéines Hox de reconnaître des sites de liaison plus spécifiques. Cette interaction a d'abord été décrite pour dépendre d'un petit motif commun aux protéines Hox, l'hexapeptide (HX). Cependant, des analyses récentes ont montré que ce motif pouvait en fait être dispensable in vivo, soulignant une capacité étonnante des protéines Hox à pouvoir potentiellement utiliser différents motifs pour interagir avec les mêmes cofacteurs. Mon travail de thèse s'inscrit dans la problématique du rôle des petits motifs dans les interactions Hox-cofacteur. Un premier projet a consisté à réaliser une analyse systématique du mode d'interaction de chaque représentant des groupes de paralogie des protéines Hox humaines avec leurs cofacteurs Pbx/Meis. Ce travail a révélé de nouveaux modes d'interaction pour plusieurs protéines Hox. Un deuxième projet a consisté à mettre en place un nouveau système de crible moléculaire pour identifier des partenaires de la protéine humaine HoxA9 sauvage ou mutée dans son motif HX dans différentes lignées cellulaires. L'ensemble de mon travail de thèse ouvre ainsi de nouvelles perspectives sur notre compréhension du mode moléculaire d'action des protéines Hox et de leurs cofacteurs, que cela soit en contexte développemental normal ou pathologique / Hox genes are present in the vast majority of the animal kingdom, and are required for the differentiation of several longitudinal axes during embryogenesis. There are also involved in the homeostasis of several tissues in the adult organism. Mutations affecting their expression and/or function are found in numerous human cancers.Hox genes encode for transcription factors that recognize short and highly similar DNA-binding sites. The direct interaction between Hox proteins and two evolutionary classes of cofactors, the Pbx and Meis proteins, allows them to recognize more specific DNA-binding sites. This interaction was first described to rely on a common short Hox protein motif called hexapeptide (HX). However, subsequent functional and molecular analyses showed that the HX motif could be dispensable for the interaction with Pbx and Meis partner in vivo. These results strongly suggest that Hox proteins could use different motifs to interact with the same set of cofactors. Such alternative motifs are unknown in mammalian Hox proteins.My thesis work is dedicated to the issue of the role of the HX motif and other short motifs in Hox-cofactor interactions. More particularly, I developed two main projects using human Hox proteins and cell lines derived from different tissues as a model system. My first project consisted in the systematic analysis of the interaction property of all Hox paralogs with the Pbx/Meis cofactors. This work revealed new Pbx/Meis-interaction interfaces in human Hox proteins. My second project consisted in establishing a new molecular screen to identify transcriptional partners of the wild type or HX-mutated human HoxA9 protein in different cell lines.Overall, my thesis work opens new perspectives into our understanding of the molecular mode of action of Hox proteins and their cofactors, in a normal or pathological developmental context Hox Cancer TALEs Lignee cellulaire humaine Crible moleculaire SLiMs Motif Facteur de transcription Hox Cancer TALEs Human cell lines Molecular screen SLiMs Motif Transcription factor 570
74	Etude de la régulation de l'activité transcriptionelle de la protéine Abdominal-A / A study into the regulation of the transcriptional activity of Abdominal-A Zouaz, Amel 16 December 2013 (has links) Les gènes Hox codent des facteurs de transcription à homéodomain (HD). Bien que ce dernier reconnaisse des séquences similaires in vitro, les protéines Hox achèvent des fonctions hautement spécifiques in vivo. Des séquences protéiques en dehors de l’HD influencent la spécificité d’action des protéines Hox par le recrutement de cofacteurs, dont le mieux caractérisé est Extradenticle (Exd) chez la drosophile. Des travaux récents au sein de notre équipe ont démontré la contribution fonctionnelle de trois motifs de AbdA, aussi bien dans des fonctions Exd-dépendantes qu’à des fonctions Exd-indépendantes. Mon travail de thèse a porté sur la caractérisation de la contribution des motifs protéiques de AbdA dans la sélection puis dans la régulation des gènes cibles en utilisant une approche combinée ChIPseq/RNAseq, dans un contexte Exd-indépendant. Le code ADN identifié nous a renseigné sur la présence d’inputs transcriptionnels additionnels. Ces derniers correspondant à des facteurs de transcription déjà connus, leur présence dans un complexe protéique avec AbdA a été démontrée par des analyses de spectrométrie de masse. Un second volet de mon travail de thèse a été l’identification de modifications post-traductionnelles pouvant rendre compte d’un mécanisme de régulation de l’activité des protéines Hox. Des analyses prédictives in silico, confirmées par des approches biochimiques et des analyses in vivo ont démontré la SUMOylation de AbdA. Ces résultats préliminaires posent les bases pour des travaux futures qui auront pour objectif d’identifier les résidus d’AbdA SUMOylés et d’élucider le rôle de cette modification dans la régulation de l’activité de la protéine AbdA. / Hox genes encode homeodomain-containing transcription factors (HD). Although the HD binds to similar DNA sequences in vitro, Hox proteins display a high functional specificity in vivo. Protein motifs outside of the HD influence Hox specificity through recruiting additional cofactors, with the best characterized being Extradenticle (Exd in Drosophila). Recent evidence from our group has uncovered the functional contribution of AbdA intrinsic motifs to AbdA Exd-dependent functions as well as AbdA Exd-independent functions. My PhD work has aimed to characterize the contribution of AbdA motifs to target gene selection and regulation using a combined approach of ChIPseq/RNAseq in an Exd-independent context. The DNA code identified provides us with new insights about additional transcriptional inputs from additional DNA-binding proteins lying in the vicinity of AbdA recognition sites. Mass spectrometry analysis establishes the occurrence of these additional DNA binding proteins in a multi-protein complex with AbdA. Deciphering the involvement of post-translational modifications in the regulation of Hox protein activity was another aspect of my PhD work. In silico predictive analysis, followed by biochemical approaches and in vivo assays reveal the potential for SUMOylation of AbdA as a potentially important regulatory component of AbdA activity. These preliminary results set the bases for further work aimed at identifying SUMOylated residues on AbdA and the functional relevance of such post-translational modification on AbdA activity regulation. Facteurs de transcription Protéines Hox AbdA Motifs protéiques Drosophile ChIPseq RNAseq Modificationpost-traductionnelles Transcription factor Hox proteins AbdA Protein motifs Drosophila ChIPseq RNAseq Post-translational modifications 571.8
75	Etude du rôle des gènes HOX dans le développement du cœur chez la souris / Study of the role of Hox genes during heart development in the mouse Roux, Marine 16 December 2013 (has links) Les gènes Hox sont essentiels à la mise en place de l’identité des cellules le long de l’axe antéropostérieur des embryons et pourraient agir en aval de l’acide rétinoïque pendant la formation du cœur. Nous montrons que les gènes Hoxb1, Hoxa1 et Hoxa3 définissent des sous-domaines du second champ cardiaque. L’analyse de lignage génétique révèle que les progéniteurs cardiaques Hoxb1+ contribuent aux oreillettes et à la partie inférieure de la voie efférente, futur myocarde sous-pulmonaire. Les progéniteurs Hoxa1+ contribuent à la partie distale de la voie efférente, suggérant un rôle de ces gènes Hox antérieurs dans sa régionalisation proximo-distale. Alors qu’aucune anomalie cardiaque n’avait été décrite chez les mutants Hoxb1, notre étude détaillée des fœtus Hoxb1-/- révèle des défauts d’alignement des gros vaisseaux ainsi que des communications interventriculaires. L’utilisation d’un marqueur du myocarde sous-pulmonaire, montre une contribution anormale des cellules du second champ cardiaque à cette région chez les mutants. Nous montrons que ces défauts sont la conséquence de la dérégulation des voies de signalisation présentes dans le second champ cardiaque. En accord avec ces observations, les embryons ont une voie efférente plus courte. L’étude des mutants Hoxa1 révèle des malformations des arcs pharyngés puis des anomalies de la crosse aortique chez les fœtus. L’analyse des doubles mutants, montre une augmentation de la pénétrance et de la sévérité de ces défauts, suggérant une interaction synergique entre Hoxa1 et Hoxb1 lors de la formation des gros vaisseaux. Ces résultats révèlent un rôle crucial des gènes Hox antérieurs dans le développement du cœur. / Hox genes are known to be involved in the establishment of cell position and identity along the anterior-posterior axis in embryos and could act as key downstream effectors of retinoic acid during heart development. In situ hybridization experiments show that Hoxb1, Hoxa1 and Hoxa3 define sub-domains within the second heart field (SHF). Our genetic lineage analysis reveals the contribution of Hoxb1+ cardiac progenitors to the atria and to the inferior wall of the outflow tract (OFT), which then gives rise to the myocardium at the base of the pulmonary trunk. Interestingly, Hoxa1+ progenitors contribute to the distal part of the OFT suggesting that these anterior Hox genes could play a role in its proximo-distal patterning. No cardiac anomalies had been reported so far in Hoxb1 mutant mice. However, our detailed study shows that mutant fetuses exhibit OFT misalignment and ventricular septal defects associated or not with ventricular wall and epicardium anomalies. Using a marker of the sub-pulmonary myocardium, we observe an abnormal contribution of SHF cells in Hoxb1-/- hearts. This defect is the consequence of the dysregulation of the signaling pathways controlling SHF regulation. Accordingly, those embryos exhibit a shorter OFT. The study of Hoxa1 mutant embryos reveals pharyngeal arch arteries patterning defects causing anomalies of the aortic arch and right subclavian artery at fetal stages. Using compound mutants, we show an increase in the penetrance and severity of these defects, suggesting a synergistic interaction between Hoxa1 and Hoxb1 during aortic arch patterning. Together, these data support a crucial role for anterior Hox genes in cardiac development. Gènes Hox Développement cardiaque Second champ cardiaque, Malformations cardiaques congénitales, Souris Hox genes Cardiac development Second heart field Congenital heart diseases, Mouse
76	Systematic Analysis of Posterior HOXA/HOXD Function in Mesenchymal Cells Jerković, Ivana 11 October 2018 (has links) HOX-Gene sind essentielle Transkriptionsfaktoren (TFs), die den Körperplan, die Struktur und die Organbildung während der Entwicklung bestimmen. Diese komplexen Prozesse werden präzise von in verschachtelter Weise exprimierten HOX-Genen reguliert. In vitro Experimente zeigten jedoch, dass die HOX-DNA-Bindungsdomäne stark konserviert ist und oft ähnliche DNA-Sequenzen bindet. Die niedrige biochemische Bindungsspezifität und die hochspezifischen Funktionen stehen oft im Widerspruch und bilden das Schlussthema des so genannten Hox-Paradoxons. Das Paradox besteht aufgrund der folgenden Hindernisse: hohe Proteinhomologie, unspezifischen Antikörper sowie die verschachtelte HOX-Expressionsmuster. Das Ziel dieser Arbeit war, diese Probleme zu überwinden, die HOX-DNA-Bindung in kontrollierten und physiologischen Umstände zu untersuchen und die Bindung von neun Gliedmaßen-spezifischen posterioren HOXA und -D-TFs zu vergleichen. Zu diesem Zweck wurden neun Hühner-HOX-Gene (HOXA- und HOXD9-13) mit dem FLAG markiert und mittels Viren in Gliedmaßen-mesenchymalen Zellen exprimiert. Somit wurde der Vergleich unter identischen und kontrollierten Bedingungen ermöglicht. Im Einklang mit in vivo Funktionsdaten zeigten die HOX-Bindungsprofile, dass zwei direkte Paraloge (z. B. HOXA10 und D10) häufiger dieselben Regionen binden als zwei Nicht-Paraloge (z. B. HOXA9 und A13). Außerdem, die hier beschriebene HOX-DNA-Bindung unterscheidet sich von in vitro Bindung, was darauf hinweist, dass Kofaktoren für deren biologische Funktion wichtig sind. Zusätzlich ergab sich aus dem Bindungsvergleich, dass es zuvor unbekannte Unterschiede zwischen Bindungsweise von HOX-TFs gibt, die zumindest teilweise auf der Häufigkeit von direkter Bindung und Ko-Bindung mit anderen TFs beruhen. Schließlich wurde mit der Kombination von Genetik, Genomik und Biochemie einen neuen HOX-Kofaktor entdeckt, CTCF, der auf ein mögliches Wechselspiel zwischen der HOX-Zielregulation und der Chromatinarchitektur hindeutet. / HOX genes are essential developmental transcription factors (TFs) that pattern the animal body plan, their structures and organs. To precisely control these very diverse processes HOX genes are expressed in a nested fashion and regulate their targets in a context specific way. However, in vitro experiments indicated that HOX DNA binding domain (Homeodomain) is remarkably rigid and often binds very similar DNA sequences. This discrepancy between high functional specificity and low in vitro biochemical specificity is at the core of a problem termed Hox paradox. This paradox persists due to several biological and technical obstacles; namely high HOX protein homology and lack of sufficiently specific antibodies as well as nested HOX expression pattern. The aim of this study was to address these problems, study HOX-DNA binding in a controlled, Hox-native environment and to compare HOX-DNA binding of nine posterior vertebrate HOXA and HOXD TFs. To do this, nine chicken HOX genes (HOXA9-13 and HOXD9-13) were FLAG-tagged and virally expressed in chicken mesenchymal limb-derived cells enabling comparison of their binding in an identical setup and controlled conditions. HOX binding profiles uncovered two direct paralogues (i.e. HOXA10 and D10) bind more often same regions than two non-paralogues (i.e. HOXA9 and A13) reminiscent of in vivo functional data. Moreover, the here described in vivo HOX-DNA binding differs from in vitro binding, indicating the importance of cofactors and biological context for HOX binding and functional outcome. Additionally, binding comparison uncovered previously unknown differences between binding modes of HOX-TFs that at least partially rely on the abundance of direct binding and co-binding with other TFs. Finally, with combination of genetics, genomics and biochemistry a novel HOX cofactor, CCCTC binding factor (CTCF), was discovered suggesting potential interplay between HOX target regulation and chromatin architecture. HOX Homeobox Transkriptionsfaktoren DNA-Bindung Genregulation Entwicklung Development ChIP-seq HOX Homeobox Transcription factors DNA-binding Gene regulation ChIP-seq 570 Biologie WX 6503 WE 2600 ddc:570
77	Analyse der differentiellen Genexpression von humanen Stro1-positiven Zellen aus pulpalem Zahnkeimgewebe und Beckenkammspongiosa / Analysis of differential gene expression of human Stro1 - positive cells from dental pulp and iliac crest tissue Oellerich, Diana Constanze 29 June 2016 (has links) Die Entdeckung adulter dentaler Stammzellen eröffnete ein neues Forschungsfeld im Hinblick auf die Regeneration dentaler Gewebe. Bisher liegen nur wenige Studien vor, in denen das Genexpressionsprofil dentaler Stammzellen im Vergleich zu den Knochenmarkstammzellen analysiert wurde. Diese Untersuchungen wurden vorwiegend an Mischkulturen vorgenommen. Im Gegensatz dazu war es daher das Ziel der vorliegenden Arbeit, das Genexpressionsprofil einer bestimmten Stammzell-Population, nämlich der Stro1-positiven pulpalen mesenchymalen Zahnkeimstammzellen (Stro1+ZK) im Vergleich zu Stro1-positiven mesenchymalen Knochenmarkstammzellen (Stro1+BK), zu untersuchen. Die Genexpression beider Zelltypen wurde anhand von Microarrays ermittelt. Insgesamt gingen 22.454 Gene in die Auswertung ein, wovon bei einem konservativ festgesetzten Schwellenwert einer FDR≤1% 2730 Gene eine hochsignifikant differentielle Expression zeigten. Die Analyse dieser differentiell exprimierten Gene mithilfe der Programme „DAVID“ und „Ingenuity“ ergab, dass in den Stro1+ZK vermehrt Gene heraufreguliert sind, die mit Zellfunktionen wie beispielsweise Proliferationsregulation, der Zell-zu-Zell-Signalleitung und der Organisation des Zytoskeletts verknüpft sind. Die Stro1+BK hingegen exprimieren verstärkt Gene, die mit der Organisation der extrazellulären Knochenmatrix und Zell-Adhäsion assoziiert sind. Des Weiteren findet sich in diesen Zellen eine verstärkte Expression von Genen, die mit der Struktur- und Formgebung des Skeletts in Verbindung stehen. Trotz identischem Stammzellmarker-Typus (Stro1) weisen die untersuchten mesenchymalen Stammzelltypen stark unterschiedliche Hox-Gen-Signaturen auf. Dabei zeigt sich sowohl eine Variation in Anzahl und Art der Hox-Gene als auch in deren Expressionsmuster. Stro1+BK exprimieren verstärkter Hox-Gene der Cluster A bis D (HOXA-D), die Segment- und Positionsinformationen codieren. Hingegen sind in den Stro1+ZK die Hox-Gene BARX1, MSX1, MSX2, DLX1, DLX2, PAX9 und LEF1 hochreguliert, welche eine tragende Rolle in der Zahnentwicklung spielen. So ist z.B. bereits bekannt, dass Mutationen dieser Gene zu Fehlbildungen von Zähnen wie Aplasien oder Hypoplasien führen können. Die vorliegende Arbeit zeigt, dass insbesondere hinsichtlich der Hox-Gene signifikante Unterschiede zwischen den Stro1+ZK und Stro1+BK bestehen. Weiterführende Experimente zur Aufklärung der Funktionsweise von Genen, die in den Stro1+ZK von Bedeutung sein könnten, einschließlich deren Erforschung auf proteinbiochemischer und zellbiologischer Ebene, wären wünschenswert. 610 microarray dental pulp stem cells Stro1 hox gene Medizin (PPN619874732)
78	Role of linker histone H1 in epigenetic regulation of pluripotency genes and Hox genes Zhang, Yunzhe 27 May 2016 (has links) Linker histone H1 plays a key role in facilitating folding of higher order chromatin structure. Previous studies have shown that deletion of three somatic H1 subtypes together leads to embryonic lethality and that H1c/H1d/H1e triple knockout (TKO) embryonic stem cells (ESCs) display bulk chromatin decompaction. Following this initial work, we investigated the role of H1 and chromatin compaction in stem cell pluripotency and differentiation, as well as the regulation of Hox genes expression. We find that H1 TKO ESCs are more resistant to spontaneous differentiation, impaired in embryoid body differentiation, and largely blocked in neural differentiation. We present evidence that H1 contributes to efficient repression of the expression of pluripotency factors, Oct4 and Nanog, and participates in establishment and maintenance of DNA methylation and histone modification necessary for silencing pluripotency genes during stem cell differentiation and embryogenesis. In addition, we find reduced expression of a distinct set of Hox genes in embryos and ESCs, respectively. Furthermore, by characterizing H1c−/−; H1d−/−; and H1e−/− single-H1 null ESCs established in this study, we showed that individual H1 subtypes regulated specific Hox genes in ESCs. Finally, we demonstrate that the levels of H3K4me3 were significantly diminished at the affected Hox genes in H1 TKO- and single-H1 KO- ESCs, whereas H3K27me3 occupancy is modestly increased at specific Hox genes. Our results suggest that marked reduction of H1 levels and decondensation of bulk chromatin affect the expression of pluripotency genes and Hox genes in embryos and ESCs, which may be in part mediated through establishment and maintenance of epigenetic marks. Histone h1 Hox genes Stem cell differentiation Pluripotency gene Oct4 Nanog Epigenetic marks
79	Mayer-Rokitansky-Kuster-Hauser Syndrome Shy, Hannah Marie January 2016 (has links) Mayer-Rokitansky-Kuster-Hauser Syndrome is a congenital disorder of the female reproductive tract due to impaired Müllerian duct development. There are three known categorical presentations: isolated, atypical, and MURCS association. Several developmentally significant factors including inappropriate AMH/AMHR interaction, and mutations in the WNT gene family and HOXA7-13 cluster have been studied. There has also been investigation into an autosomal dominant pattern of inheritance in families with multiple cases of the syndrome. Due to the presence of multiple subsets of patients with similar genetic abnormalities, it seems unlikely that a single etiology will be discovered. MRKH MUC1 gene Mullerian duct uterine aplasia vaginal aplasia Molecular & Cellular Biology HOX genes
80	On the origin of bilaterality : insights from the study of black corals (Cnidaria : Antipatharia) / L'origine de la bilatéralité : apports de l'étude des coraux noirs (Cnidaria : Antipatharia) Ferreira Gonçalves, João 28 September 2016 (has links) L’origine des symétries et des polarités est l’un des thèmes centraux de l’évolution animale. Classiquement considérée comme une innovation propre aux animaux à symétrie bilatérale (Bilateria), la bilatéralité est en fait très largement répandue chez les cnidaires, groupe-frère des Bilateria, principalement au sein de la classe des anthozoaires. La découverte que la voie BMP étai différentiellement exprimé selon l’axe secondaire de N. vectensis a fait que sur la base d’arguments moléculaires certains travaux postulent que la bilatéralité est antérieure à la divergence cnidaires/bilateria (Finnerty et al. 2004, Matus et al. 2006), alors que d’autres chercheurs mettent en avant l’hypothèse d’une convergence sur la base d’arguments anatomiques et phylogénétiques (Manuel 2009). Chez Nematostella les gènes Hox sont différentiellement exprimés dans l’axe directeur et leur expression est contrôlée par la voie BMP. Notre étude avec l’espèce Antipathes caribbeana, un corail noir (Antipatharia) a permet âpre confirmation de ça anatomie a interne a symétrie bilatéral l’étude de l’expression de ces gènes et a discuter l’origine de la bilatéralité. / The origin of body axis is one of the central themes on animal evolution. Usually regarded as an innovation of Bilateria, the bilateral symmetry is broadly distributed in the Anthozoan class of Cnidarians. The molecular basis of this Anthozoan bilaterality have been studied in Nematostella vectensis (Actiniaria), and the discovery that the BMP-pathway was differentially expressed along the secondary axis lead authors to presume that bilaterality was ancestral to the Cnidaria/Bilateria divergence (Finnerty et al. 2004, Matus et al. 2006), while Manuel (2009) preferred a convergence hypothesis based on comparative anatomy and phylogeny. In opposition to Bilateria, HOX genes have recently been shown to be differentially expressed along the secondary axis of N. vectensis. In order to do evolutive inferences from these results it is necessary to study the HOX genes and BMP genes expression patterns in other Anthozoan species. Our study with the antipatharian colonial species Antipathes caribbeana focuses on the detailed anatomy of the polyp, confirming the previously doubtful bilateral organization of its polyps. In order to compare Antipatharian species to N. vectensis, a comparison between the mesenteric formation and symmetries on the different groups of anthozoans is presented, allowing to establish the homology between their secondary axis. The study of the expression of HOX and BMP genes in A. caribbeana shows that they are, as in Nematostella, differentially expressed along the secondary axis. Reinforcing the idea that bilaterality is ancestral to the Cnidaria/Bilateria divergence and that HOX genes have a patterning role on the secondary axis of Anthozoans. Anthozoa Antipatharia Cnidaria BMP Évo-dévo HOX Anthozoa Evo-devo Bilaterality 576.8

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