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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
171

Transcriptional regulation and epigenetic repression of the tumor suppressor DOK1 in viral- and non viral-related carcinogenesis / L'étude de la régulation transcriptionnelle et la répression épigénétique du gène suppresseur de tumeur DOK1 dans les carcinogenèses induites ou non par des oncovirus

Siouda, Maha 07 October 2013 (has links)
Le suppresseur de tumeur DOK1 (downstream of tyrosine kinases1) est une protéine régulatrice de voies de signalisation impliquées dans des processus cellulaires tel que la prolifération, la migration et l'apoptose. Le rôle suppresseur de tumeur de DOK1 a été démontré dans des modèles animaux. Les souris knock-out pour DOK1 présentent une forte susceptibilité de développer des leucémies, des tumeurs malignes hématologiques, des adénocarcinomes pulmonaires, ainsi que des sarcomes histiocytaires agressifs. En outre, nous avons rapporté précédemment que le gène DOK1 peut être muté et son expression réprimée dans différentes tumeurs malignes humaines, telles que les lignées cellulaires de lymphome de Burkitt (BL) et la leucémie lymphoïde chronique (LLC). Cependant, les mécanismes de dérégulation de DOK1 restent inconnus, notamment dans les processus de carcinogenèse induite ou non par des oncovirus. Dans ce projet de thèse, nous avons d'abord caractérisé le promoteur de DOK1 et le rôle du facteur de transcription E2F1 comme le principal régulateur de l'expression de DOK1. Nous avons démontré pour la première fois la contribution de DOK1 dans la réponse cellulaire au stress par son rôle suppresseur de prolifération cellulaire et promoteur d'apoptose. Nous avons trouvé que l'expression du gène DOK1 est réprimée dans une variété de cancers humains, y compris le cancer de la tête et du cou, les lymphomes de Burkitt et les cancers du poumon. Cette répression est due à l'hyperméthylation aberrante de DOK1. Nous avons donc étudié les événements épigénétiques, qui sont souvent altérés dans les cancers, et leurs implications dans la répression de DOK1 dans les lignes cellulaire cancéreuses de la tête et du cou. Nous nous sommes par la suite intéressés aux mécanismes de dérégulation de DOK1 par le virus d'Epstein Barr dans le cadre de sa propriété oncogénique dans les lymphocytes B humains ainsi que dans les lignes cancéreuses du lymphome de Burkitt. Nos résultats apportent de nouvelles informations sur les mécanismes de régulation de l'expression de DOK1 dans la carcinogenèse induite ou non par des oncovirus, ce qui pourrait le définir comme un biomarqueur potentiel de cancer et comme une cible intéressante pour des thérapies épigénétiques / The newly identified tumor suppressor DOK1 (downstream of tyrosine kinases1) inhibits cell proliferation, negatively regulates MAP kinase activity, opposes leukemogenesis, and promotes cell spreading, motility, and apoptosis. DOK1 also plays a role in the regulation of immune cell activation, including B cells. The tumor suppressor role of DOK1 was demonstrated in animal models. DOK1 knockout mice show a high susceptibility to develop leukemia, hematological malignancies as well as lung adenocarcinomas and aggressive histiocytic sarcoma. In addition, we previously reported that the DOK1 gene can be mutated and its expression is down-regulated in human malignancies such as Burkitt’s lymphoma cell lines (BL) and chronic lymphocytic leukemia (CLL). However, very little is known about the mechanisms underlying DOK1 gene regulation and silencing in viral- and non viral-related tumorigenesis. In the present project, we first characterized the DOK1 promoter. We have shown the role of E2F1 transcription factor as the major regulator of DOK1 expression and how DOK1 plays a role in DNA stress response though opposing cell proliferation and promoting apoptosis. We demonstrated that DOK1 gene expression is repressed in a variety of human cancers, including head and neck, Burkitt’s lymphoma and lung cancers, as a result of aberrant hypermethylation. We investigated the link between the epigenetic events and DOK1 silencing in non viral head and neck cancer cell lines, and by Epstein Barr virus in relation to its oncogenic activity in human B cells and neoplasia such as Burkitt’s lymphoma. These data provide novel insights into the regulation of DOK1 in viral and non viral-related carcinogenesis, and could define it as a potential cancer biomarker and an attractive target for epigeneticbased therapy
172

Expressão de genes de repressão gênica em tumor primário em relação à presença ou ausência de células metastáticas ocultas na medula óssea em pacientes com câncer de mama / Expression of genes involved in transcriptional repression in the primary tumor of breast cancer patients in the presence or absence of occult metastatic cells in the bone marrow

Abreu, Ana Paula Santana de 25 August 2006 (has links)
Estudos sugerem que a presença de células metastáticas ocultas em medula óssea pode ser fator prognóstico em câncer de mama. Além disso, é possível que um perfil gênico tumoral específico, caracterizado por repressão da expressão gênica, esteja associado à detecção de células tumorais na medula óssea. O silenciamento de genes é controlado pela desacetilação de histonas e metilação de DNA, esta última catalisada por enzimas DNA metil transferases. Outro alvo de metil-transferases são as histonas, e histona H3 quando sofre metilação em lisina 9, gera sítio de ligação a proteínas HP1 (Heterocromatin protein-1 ou cromobox). Membros da família HP1 (HP1Hsalfa, HP1Hsbeta e HP1HsY) participam da formação da heterocromatina e da regulação da expressão de genes. Logo, nosso objetivo foi determinar no tumor primário de mama, a expressão de HP1Hsalfa, HP1Hsbeta e HP1Hsy , que participam da repressão gênica, em relação à presença ou ausência de células metastáticas ocultas na medula óssea. Neste estudo foram incluídas 37 pacientes de forma prospectiva, atendidas no Instituto Brasileiro de Controle do Câncer (IBCC) no período de junho de 2004 a julho de 2005, com diagnóstico histopatológico de carcinoma invasivo de mama, estádio clínico (EC) I (16,2%), II (51,4%) ou III (32,4%), segundo a classificação patológica. A idade mediana das pacientes foi 63 anos (41 a 90) e 62.2% delas encontravam-se na pós-menopausa, sendo que 24.3% relatava história familiar para câncer de mama. O tipo histológico predominante foi carcinoma ductal invasivo (89.2% dos casos), sendo, o restante, representado por carcinoma lobular invasivo (10.8%). Foram coletadas amostras de tumor primário de mama e de aspirado de medula óssea de cada paciente. A presença de células metastáticas ocultas (CMO) na medula óssea (MO) foi detectada através da expressão de citoqueratina 19 (CK19) pelo método de nested RT-PCR. A expressão relativa dos genes HP1Hsalfa, HP1Hsbeta e HP1Hsy foi determinada no tumor primário, usando-se a técnica de RT-PCR em tempo real. Presença de CMO foi detectada na MO de 20 pacientes (54.1%). Não observamos diferença na expressão de HP1Hs? (1,93 ± 2,25 MO- vs 3,84 ± 5,53 MO+), HP1Hs? (6,74 ± 6,31 MO- vs 6,49 ± 5,86 MO+) e HP1Hs? (24,58 ± 11,14 MO- vs 24,91 ± 15,88 MO+) entre as amostras tumorais de pacientes com presença (MO+) ou ausência (MO-) de micrometástase medular. Também não observamos variação da expressão de genes HP1 em relação ao comprometimento linfonodal, dimensão e grau histológico do tumor, expressão tumoral de receptores de estrógeno e estado menopausal da paciente. A expressão de HP1Hsalfa em tumores de pacientes com câncer de mama ERBB2 negativos, entretanto, foi maior do que em tumores ERBB2 positivos. Nossos dados indicam que em tumores de mama, a expressão de HP1Hsalfa, HP1Hsbeta e HP1Hsy não parece se associar à presença de células ocultas em medula óssea / Studies suggest that the presence of occult metastatic cells (OMC) in the bone marrow (BM) may be a prognostic factor in breast cancer. Besides, it is possible that a specific tumor gene profile, characterized by repression of gene expression, may be associated to the presence of tumoral cells in the bone marrow. Gene silencing is controlled by histone deacetylation and DNA methylation, the last one catalized by enzymes DNA methyltransferases (DNMTs). Histones are another target of methyltransferases, and methylation of histone H3 on lysine-9 generate a binding site for HP1 proteins (Heterocromatin protein-1 or chromobox). Members of the HP1 family (HP1Hsalfa, HP1Hsbeta e HP1Hsy) take part in heterochromatin formation and gene expression regulation. Hence, our aim was to determine in the primary tumor of the breast, the expression of HP1Hsalfa, HP1Hsbeta e HP1Hsy, which participate in gene repression, in the presence or absence of occult metastatic cells in the bone marrow. In this study, 37 patients treated at Instituto Brasileiro de Controle do Câncer, from June 2004 to July 2005, with invasive breast cancer histopathologically confirmed, pathological clinical stages I (16,2%), II (51,4%) or III (32,4), were included. The median age of the patients was 63 years (41 to 90), 62.2% were post-menopausal and 24.3% reported family history of breast cancer. Invasive ductal carcinoma was diagnosed in most patients (89.2%), and invasive lobular carcinoma was detected in the other patients (10.8%). Tumor samples and bone marrow aspirates were obtained from each patient. The presence of CMO in BM was detected by keratin-19 (CK19) expression by nested RT-PCR. The relative expression of the genes HP1Hsalfa, HP1Hsbeta e HP1Hsy was determined by real-time RT-PCR. Occult metastatic cells (OMC) in BM were detected in 20 patients (54.1%). No differences were observed in the expression of HP1Hs? (1,93 ± 2,25 BM- vs 3,84 ± 5,53 BM+), HP1Hsalfa (6,74 ± 6,31 BM- vs 6,49 ± 5,86 BM+) and HP1Hsbeta (24,58 ± 11,14 BM- vs 24,91 ± 15,88 BM+) between tumor samples of BM+ patients and BM- patients. Variations of HP1 gene expression were neither observed according to lymph node involvement, tumor size, histological grade, estrogen receptor status and menopausal status. However, HP1Hsbeta expression in ERBB2-negative tumors was higher than in ERBB2-positive tumors. Our data indicate that in breast cancer tumors, expression of HP1Hsalfa, HP1Hsbeta e HP1Hsy does not seem to be associated with the presence of occult metastatic cells in the bone marrow
173

Identification de gènes préférentiellement exprimés par les cellules dendritiques et évaluation critique d'une approche de transgenèse lentivirale afin d'en étudier la fonction biologique in vivo

Baup, Delphine 15 December 2009 (has links)
A chaque instant notre organisme est confronté à des agents pathogènes de nature très variable. Pourtant, malgré toutes les agressions rencontrées, il maintient une certaine intégrité. Cette dernière résulte de la mise en place d’un système de défense perfectionné, fruit de la collaboration étroite de diverses cellules :le système immunitaire. Parmi toutes les cellules qui le composent, les cellules dendritiques jouent un rôle prépondérant. Disséminées dans la plupart de nos organes et tissus, elles surveillent, en alerte du moindre danger. Elles orchestrent la réponse immune :elles sont capables d'initier et polariser une réponse immune ou d'instaurer la tolérance. De nombreux traitements thérapeutiques tentent d’exploiter leurs capacités intrinsèques. Ces cellules présentent en effet un grand potentiel dans la vaccination anti-tumorale et antivirale, dans l’acceptation de greffes et le contrôle de maladies auto-immunes. Toutefois, de nombreux éclaircissements restent encore à apporter que ce soit sur l’ontogénie des cellules dendritiques, leur rôle ou leur propre biologie. <p><p>Aussi, le dessein de ce travail était d’approfondir nos connaissances fondamentales sur les propriétés moléculaires et la biologie des cellules dendritiques afin de mieux appréhender la nature et l’amplitude des réponses qu’elles induisent. A cette fin, nous avons identifié deux nouveaux gènes qu’elles expriment préférentiellement et nous avons essayé de caractériser leur fonction. L’avènement de l’utilisation de la technique d’ARN interférence dans les systèmes de mammifères et le développement des vecteurs lentiviraux nous sont apparus comme des outils présentant un réel potentiel pour répondre à nos questions. Nous avons donc généré des souris qui sur- ou sous- expriment le gène d’intérêt, par infection lentivirale d’embryons, pour tenter de cerner son rôle in vivo. Cette méthode de transgénèse était très prometteuse car rapide, efficace, peu onéreuse et sollicitait peu de compétences pour la manipulation des embryons. Cependant, l’approche s’est révélée plus laborieuse que prévu. Nous avons en effet rencontré de nombreux phénomènes de variégation et de « silencing » qui a rendu plus ardue l’utilisation des souris transgéniques. Néanmoins, nous pensons aujourd’hui être à même d’élaborer une stratégie de sélection des souris générées par transgénèse lentivirale qui ne développeraient probablement pas les problèmes rencontrés. Au cours de l’étude, nous avons également observé une fluctuation de l’activité du promoteur CAG pendant le développement thymique, pointant l’importance du choix d’un promoteur optimal en fonction du projet de recherche. Enfin, l’analyse des souris, bien que préliminaire, suggère un rôle potentiel d’un des gènes examinés dans la différenciation, la mobilisation ou la survie des cellules dendritiques, des macrophages et des lymphocytes B.<p> / Doctorat en Sciences / info:eu-repo/semantics/nonPublished
174

Les AtNSRs, protéines régulatrices de l’épissage alternatif et du silencing post transcriptionnel / The AtNSRs, proteins involved in alternative splicing regulation and post transcriptionnal gene silencing

Bardou, Florian 05 May 2013 (has links)
Chez les eucaryotes, plusieurs protéines liant l'ARN ou RBPs agissent sur l'ARNm à différents niveaux, de l'épissage à la traduction. Récemment, un grand nombre d’ARN non-codant des protéines (npcRNAs) ont été identifiés chez les eucaryotes et ont été montré comme interagissant avec une variété de ribonucléoprotéines (RNP) pour contrôler l'expression des gènes au niveau post-transcriptionnel. Nous avons identifié une Nuclear-Speckle RBP (ou NSR) qui interagit avec le npcRNA, ENOD40, un lncARN qui s'accumule au cours de la formation des racines latérales et des nodules chez les légumineuses. Durant cette thèse nous avons analysé le rôle des NSR d’Arabidopsis thaliana ainsi que leur lien avec les npcARN.Deux gènes AtNSRs homologues existent chez Arabidopsis nommés NSRa et NSRb, ces gènes codent des protéines localisées dans des speckles nucléaires avec certaines protéines apparentées à l’épissage. Fait intéressant, les fusions AtNSR-GFP sont relocalisées dans des granules cytoplasmiques dans certaines cellules des racines différenciées ainsi que lors d’une co-expression éctopique de ENOD40. Le gène AtNSRb est régulé par l'auxine alors AtNSRa est constitutif. Les simples mutants Atnsr ne montrent pas de phénotype, mais la croissance des racines des doubles mutants est partiellement insensible à l'auxine, ce qui suggère une fonction redondante de ces protéines dans les racines. La localisation observée pour ces protéines nous a mené à explorer un rôle des NSRs dans l’épissage, nous avons donc analysé le profil d'épissage de 288 gènes en réponse à l'auxine chez Arabidopsis et comparé ces profils entre le WT et les mutants nsra/nsrb. Tout d’abord nous avons remarqué que l’épissage général ne variait pas, en revanche, l’analyse de 288 gènes alternativement épissés montre que le profil d'épissage de 77 gènes semble être modifié durant la réponse à l'auxine et 51 gènes nécessitent les protéines AtNSR pour ce changement. Afin de vérifier l’interaction des NSRs avec les cibles d’AS et avec les npcARN nous avons co-immunoprécipité les NSRs et nous avons identifié au moins 5 cible d’AS et 2 npcARN. L’expression de l’ARN ENOD40 ainsi que du partenaire npcARN module L’AS chez Arabidopsis. Dans un deuxième chapitre, nous avons exploré le rôle des NSRs dans le PTGS déclenché par un transgène contenant un intron ce qui nous a permis de lier l’épissage alternatif et le silencing. Nous proposons donc que les NSRs pourraient lier l’épissage alternatif et l’action des ARN non codants, notamment lors de la croissance de la racine. / In eukaryotes, several RNA binding proteins (RBPs) act on mRNA at various levels from splicing to translation. Recently a large number of non-protein coding RNAs (npcRNAs) have been identified in eukaryotes and shown to integrate into a variety of ribonucleoproteins (RNP) to control posttranscriptional gene expression. Our laboratory has identified a plant Nuclear-Speckle RBP (or NSR) that interacts with an npcRNA, ENOD40 that accumulates during lateral root and nodule formation in legumes. NSR is relocalised into a cytoplasmic RNP in the ENOD40-expressing cells. During this PhD, we have analysed the role of NSRs in Arabidopsis thaliana and its link with npcRNAs. Two AtNSR homologs from Arabidopsis thaliana, named AtNSRa and AtNSRb, code for proteins also localised in nuclear speckles together with certain splicing-related proteins. Interestingly, AtNSR-GFP fusions are relocalised into cytoplasmic granules in certain differentiated root cells and by ectopic expression of the ENOD40 RNA. The AtNSRb gene is regulated by auxin whereas AtNSRa is constitutive. Root growth and lateral root formation of double nsra/nsrb mutants is partially insensitive to auxin. The localisation of these proteins prompted us to explore roles in splicing. No defects in general splicing were observed however analysis of 288 alternatively spliced genes in WT and nsra/nsrb roots in response to auxin revealed 77 changes in splicing profiles in response to auxin from which 51 required AtNSRs. In order to validate the interaction of NSRs with alternatively spliced mRNAs and npcRNAs, we have co-immunoprecipitated NSRs and identified at least 5 interacting alternatively spliced mRNAs and 2 npcRNAs. Expression of the ENOD40 RNA or one interacting ncRNA modulate alternatively splicing in Arabidopsis. In a second chapter, we explored the role of NSRs in the modulation of PTGS triggered by intron-containing transgenes allowing us to link alternatively splicing and silencing. We propose that NSRs may link alternative splicing and the action of non-coding RNA, notably during root growth and development.
175

Detection And Characterization Of Plant Genes Involved In Various Biotic And Abiotic Stress Conditions Using Ddrt-pcr And Isolation Of Interacting Proteins

Unver, Turgay 01 August 2008 (has links) (PDF)
The main objective of this thesis dissertation is functionally characterizing the genes involved in biotic and abiotic stresses of plants at molecular level. Previously, upon pathogen attack Rad6 gene expression was found to be changed in wheat and barley plants. To functionally characterize the Rad6 gene, VIGS (Virus induced gene silencing) system was used. HR (Hypersensitive response) like symptoms was detected in every silenced barley and wheat plants. To figure out, transcriptomes and proteomes of Rad6 silenced plants were analyzed. 2-D PAGE analysis was also performed on silenced and control wheat plants. No pathogen growth was observed in Rad6 silenced barley lines. Additionally, the susceptible wild type Arabidopsis plants showed resistant phenotype when any of the Rad6 gene copies is mutated. This suggests that Rad6 gene has a negative regulatory role in plant disease resistance which was proved for the first time. Yeast two hybrid protein interaction study suggests that RAD6 carrying out its function by interacting with SGT1 protein and regulating resistance related genes. It has been first time reported in this thesis that E2 (Ubiquitin conjugating enzyme) takes role in plant disease resistance. Boron which is the other consideration in the scope of thesis as an abiotic stress factor at a very limited amount is necessary for the normal development of plants. This study is conducted on highly boron tolerant Gypsophila perfoliata L. collected from a location in the boron mining area. The plant samples were tested in the presence of high boron (35 mg/kg) concentrations. The transcriptomes of the plant samples treated with the excess levels of boron to that of the samples grown under normal concentration were compared using differential display PCR method. Thirty bands showing differential expression levels at varying time points were analyzed. 18 of them were confirmed via qRT-PCR.
176

Elucidation Of The Role Of Gcn2 Gene In Response To Powdery Mildew Infection

Ozturk, Ibrahim Kutay 01 August 2012 (has links) (PDF)
Plant immune system is entirely based on the immunities of the individual cells in which systemic signals originate from the infection sites. Powdery mildew disease is one of the agents causing these infection sites, resulting in significant yield losses, if disease develops. Understanding the molecular basis of plant-pathogen interactions is the new trend for fighting against plant pathogens, since classical methods used in selection of resistant plants are becoming less and less efficient nowadays. Thus, finding out the genes which are responsible in plant&rsquo / s resistance is becoming very important. In this thesis, effect of &lsquo / General Control Nondepressible-2&rsquo / (GCN2) homolog protein in barley defense mechanism was aimed to be studied. The GCN2 of yeast was v previously identified in our laboratory as an interacting protein when the yeast cDNA library was screened with a putative yellow rust R gene (Yr10) fragment. There are reports available in the literature for the function of GCN2 protein, which makes it a good candidate for a role in disease resistance. Thus, the barley homologue of GCN2 might have a role in the R protein mediated early disease response of which may be proceeding via Programmed Cell Death (PCD). In order to observe such function of HvGCN2 in barley, silencing of its expression via Virus Induced Gene Silencing (VIGS) was investigated. Therefore, the GCN2 homologue was found to function as dampening the severity of the disease. The silencing with triple technical replicates was observed in 5 of the 6 samples, at an average of 43.2% by qRT-PCR analysis. The pathogen growth levels at different time points were analyzed under light microscope on the silenced and the control samples by measuring the primary and secondary hyphae lengths. The total of 24 seedlings and 292 individual spores were analyzed, and then the level of disease formation was quantitated with 603 primary hyphae and 106 secondary hyphae measurements. Up to 25% hyphae growth rate differences between the control and silenced groups were observed with a probability value less than 0.05 on t-test.
177

Towards the development of transgenic banana bunchy top virus (BBTV)-resistant banana plants : interference with replication

Tsao, Theresa Tsun-Hui January 2008 (has links)
Banana bunchy top virus (BBTV) causes one of the most devastating diseases of banana. Transgenic virus resistance is now considered one of the most promising strategies to control BBTV. Pathogen-derived resistance (PDR) strategies have been applied successfully to generate plants that are resistant to numerous different viruses, primarily against those viruses with RNA genomes. BBTV is a circular, single-stranded (css) DNA virus of the family Nanoviridae, which is closely related to the family Geminiviridae. Although there are some successful examples of PDR against geminiviruses, PDR against the nanoviruses has not been reported. Therefore, the aim of this thesis was to investigate the potential of BBTV genes to interfere with virus replication when used as transgenes for engineering banana plants resistance to BBTV. The replication initiation protein (Rep) of nanoviruses is the only viral protein essential for viral replication and represents an ideal target for PDR. Therefore, this thesis focused on the effect of wild-type or mutated Rep genes from BBTV satellite DNAs or the BBTV integral genome on the replication of BBTV in banana embryogenic cell suspensions. A new Rep-encoding satellite DNA, designated BBTV DNA-S4, was isolated from a Vietnamese BBTV isolate and characterised. When the effect of DNA-S4 on the replication of BBTV was examined, it was found that DNA-S4 enhanced the replication of BBTV. When the replicative capabilities of DNA-S4 and the previously characterised Rep-encoding BBTV satellite, DNA-S1, were compared, it was found that the amount of DNA-S4 accumulated to higher levels than DNA-S1. The interaction between BBTV and DNA-S1 was also examined. It was found that over-expression of the Rep encoded by DNA-S1 using ubi1 maize polyubiquitin promoter enhanced replication of BBTV. However, when the Rep-encoded by DNA-S1 was expressed by the native S1 promoter (in plasmid pBT1.1-S1), it suppressed the replication of BBTV. Based on this result, the use of DNA-S1 as a possible transgene to generate PDR against BBTV was investigated. The roles of the Rep-encoding and U5 genes of BBTV DNA-R, and the effects of over-expression of these two genes on BBTV replication were also investigated. Three mutants of BBTV DNA-R were constructed; plasmid pUbi-RepOnly-nos contained the ubi1 promoter driving Rep expression from DNA-R, plasmid pUbi-IntOnly-nos contained the ubi1 promoter driving expression of the DNA-R internal gene product (U5), while plasmid pUbi-R.ORF-nos contained the ubi1 promoter driving the expression of both Rep and the internal U5 gene product. The replication of BBTV was found to be significantly suppressed by pUbi-RepOnly-nos, weakly suppressed by pUbi-IntOnly-nos, but strongly enhanced by pUbi-R.ORF-nos. The effect of mutations in three conserved residues within the BBTV Rep on BBTV replication was also assessed. These mutations were all made in the regions in the ATPase motifs and resulted in changes from hydrophilic to hydrophobic residues (i.e. K187→M, D224→I and N268→L). None of these Rep mutants was able to initiate BBTV replication. However, over-expression of Reps containing the K187→M or N268→L mutations significantly suppressed the replication of BBTV. In summary, the Rep constructs that significantly suppressed replication of DNA-R and -C in banana embryogenic cell suspensions have the potential to confer resistance against BBTV by interfering with virus replication. It may be concluded that BBTV satellite DNAs are not ideal for conferring PDR because they did not suppress BBTV replication consistently. Wild-type Rep transcripts and mutated (i.e. K187→M and N248→L) Rep proteins of BBTV DNA-R, however, when over-expressed by a strong promoter, are all promising candidates for generating BBTV-resistant banana plants.
178

Expressão de genes de repressão gênica em tumor primário em relação à presença ou ausência de células metastáticas ocultas na medula óssea em pacientes com câncer de mama / Expression of genes involved in transcriptional repression in the primary tumor of breast cancer patients in the presence or absence of occult metastatic cells in the bone marrow

Ana Paula Santana de Abreu 25 August 2006 (has links)
Estudos sugerem que a presença de células metastáticas ocultas em medula óssea pode ser fator prognóstico em câncer de mama. Além disso, é possível que um perfil gênico tumoral específico, caracterizado por repressão da expressão gênica, esteja associado à detecção de células tumorais na medula óssea. O silenciamento de genes é controlado pela desacetilação de histonas e metilação de DNA, esta última catalisada por enzimas DNA metil transferases. Outro alvo de metil-transferases são as histonas, e histona H3 quando sofre metilação em lisina 9, gera sítio de ligação a proteínas HP1 (Heterocromatin protein-1 ou cromobox). Membros da família HP1 (HP1Hsalfa, HP1Hsbeta e HP1HsY) participam da formação da heterocromatina e da regulação da expressão de genes. Logo, nosso objetivo foi determinar no tumor primário de mama, a expressão de HP1Hsalfa, HP1Hsbeta e HP1Hsy , que participam da repressão gênica, em relação à presença ou ausência de células metastáticas ocultas na medula óssea. Neste estudo foram incluídas 37 pacientes de forma prospectiva, atendidas no Instituto Brasileiro de Controle do Câncer (IBCC) no período de junho de 2004 a julho de 2005, com diagnóstico histopatológico de carcinoma invasivo de mama, estádio clínico (EC) I (16,2%), II (51,4%) ou III (32,4%), segundo a classificação patológica. A idade mediana das pacientes foi 63 anos (41 a 90) e 62.2% delas encontravam-se na pós-menopausa, sendo que 24.3% relatava história familiar para câncer de mama. O tipo histológico predominante foi carcinoma ductal invasivo (89.2% dos casos), sendo, o restante, representado por carcinoma lobular invasivo (10.8%). Foram coletadas amostras de tumor primário de mama e de aspirado de medula óssea de cada paciente. A presença de células metastáticas ocultas (CMO) na medula óssea (MO) foi detectada através da expressão de citoqueratina 19 (CK19) pelo método de nested RT-PCR. A expressão relativa dos genes HP1Hsalfa, HP1Hsbeta e HP1Hsy foi determinada no tumor primário, usando-se a técnica de RT-PCR em tempo real. Presença de CMO foi detectada na MO de 20 pacientes (54.1%). Não observamos diferença na expressão de HP1Hs? (1,93 ± 2,25 MO- vs 3,84 ± 5,53 MO+), HP1Hs? (6,74 ± 6,31 MO- vs 6,49 ± 5,86 MO+) e HP1Hs? (24,58 ± 11,14 MO- vs 24,91 ± 15,88 MO+) entre as amostras tumorais de pacientes com presença (MO+) ou ausência (MO-) de micrometástase medular. Também não observamos variação da expressão de genes HP1 em relação ao comprometimento linfonodal, dimensão e grau histológico do tumor, expressão tumoral de receptores de estrógeno e estado menopausal da paciente. A expressão de HP1Hsalfa em tumores de pacientes com câncer de mama ERBB2 negativos, entretanto, foi maior do que em tumores ERBB2 positivos. Nossos dados indicam que em tumores de mama, a expressão de HP1Hsalfa, HP1Hsbeta e HP1Hsy não parece se associar à presença de células ocultas em medula óssea / Studies suggest that the presence of occult metastatic cells (OMC) in the bone marrow (BM) may be a prognostic factor in breast cancer. Besides, it is possible that a specific tumor gene profile, characterized by repression of gene expression, may be associated to the presence of tumoral cells in the bone marrow. Gene silencing is controlled by histone deacetylation and DNA methylation, the last one catalized by enzymes DNA methyltransferases (DNMTs). Histones are another target of methyltransferases, and methylation of histone H3 on lysine-9 generate a binding site for HP1 proteins (Heterocromatin protein-1 or chromobox). Members of the HP1 family (HP1Hsalfa, HP1Hsbeta e HP1Hsy) take part in heterochromatin formation and gene expression regulation. Hence, our aim was to determine in the primary tumor of the breast, the expression of HP1Hsalfa, HP1Hsbeta e HP1Hsy, which participate in gene repression, in the presence or absence of occult metastatic cells in the bone marrow. In this study, 37 patients treated at Instituto Brasileiro de Controle do Câncer, from June 2004 to July 2005, with invasive breast cancer histopathologically confirmed, pathological clinical stages I (16,2%), II (51,4%) or III (32,4), were included. The median age of the patients was 63 years (41 to 90), 62.2% were post-menopausal and 24.3% reported family history of breast cancer. Invasive ductal carcinoma was diagnosed in most patients (89.2%), and invasive lobular carcinoma was detected in the other patients (10.8%). Tumor samples and bone marrow aspirates were obtained from each patient. The presence of CMO in BM was detected by keratin-19 (CK19) expression by nested RT-PCR. The relative expression of the genes HP1Hsalfa, HP1Hsbeta e HP1Hsy was determined by real-time RT-PCR. Occult metastatic cells (OMC) in BM were detected in 20 patients (54.1%). No differences were observed in the expression of HP1Hs? (1,93 ± 2,25 BM- vs 3,84 ± 5,53 BM+), HP1Hsalfa (6,74 ± 6,31 BM- vs 6,49 ± 5,86 BM+) and HP1Hsbeta (24,58 ± 11,14 BM- vs 24,91 ± 15,88 BM+) between tumor samples of BM+ patients and BM- patients. Variations of HP1 gene expression were neither observed according to lymph node involvement, tumor size, histological grade, estrogen receptor status and menopausal status. However, HP1Hsbeta expression in ERBB2-negative tumors was higher than in ERBB2-positive tumors. Our data indicate that in breast cancer tumors, expression of HP1Hsalfa, HP1Hsbeta e HP1Hsy does not seem to be associated with the presence of occult metastatic cells in the bone marrow
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The abscission regulatory module INFLORESCENCE DEFICIENT IN ABSCISSION (IDA) / HAESA (HAE)-like receptor kinases in Solanaceae species: Functional analysis in Nicotiana benthamiana

Ventimilla Llora, Daniel 10 June 2021 (has links)
[ES] La abscisión es un proceso de separación celular activo, organizado y altamente coordinado que permite el desprendimiento de órganos vegetativos y reproductivos completos, mediante la modificación de la adhesión celular y la desintegración de las paredes celulares en lugares específicos del cuerpo de la planta conocidos como zonas de abscisión. En Arabidopsis thaliana (Arabidopsis), la abscisión de órganos florales y hojas caulinares está regulada por la interacción entre el péptido hormonal (IDA), un par de proteínas quinasas de tipo receptor redundantes, (HAE y HSL2), y correceptores de la familia SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE. El conocimiento sobre la maquinaria molecular que regula la abscisión en especies de plantas de importancia económica de la familia de las solanáceas es en la actualidad escaso. En esta investigación de doctorado, se realizó un análisis funcional de los componentes del módulo de señalización de abscisión IDA-HAE en N. benthamiana. En la primera sección de este trabajo, se estudió el grado de conservación y la filogenia de las familias de genes IDA-like y HAE-like en especies relevantes del género Solanum, Capsicum y Nicotiana. Se analizó la expresión de estos genes en el alopoliploide N. benthamiana, con el fin de identificar miembros implicados en la abscisión y en la respuesta a condiciones de estrés abiótico como la sequía. En la segunda sección, se evaluó el efecto del silenciamiento y la sobreexpresión de NbenIDA1A y NbenIDA1B, dos homeólogos IDA-like de N. benthamiana que se asociaron con la abscisión de la corola en la sección anterior. Además, también se determinó el efecto sobre la abscisión de la corola del silenciamiento de NbenHAE.1. Las relaciones filogenéticas entre los miembros IDA-like de las solanáceas estudiadas, agruparon los dos pares de homeólogos de proteínas NbenIDA1 y NbenIDA2 con los prepropéptidos de Arabidopsis relacionados con la abscisión. El análisis de las regiones promotoras en busca de elementos reguladores reveló que estos dos pares de homeólogos contenían elementos de respuesta tanto hormonales como de respuesta a la sequía, aunque NbenIDA2A carecía de los elementos reguladores hormonales. Los análisis de expresión génica también indican que el par de homeólogos NbenIDA1 se regulan positivamente durante la abscisión de la corola. Los pares NbenIDA1 y NbenIDA2 mostraron una expresión diferencial tisular en condiciones de estrés hídrico, ya que los homeólogos NbenIDA1 se indujeron en hojas estresadas, mientras que los homeólogos NbenIDA2, especialmente NbenIDA2B, se indujeron en raíces estresadas. En las plantas con crecimiento activo no estresadas, los nudos y los entrenudos fueron los tejidos con los niveles de expresión más altos de todos los miembros de la familia IDA-like y sus receptores HAE-like putativos. El silenciamiento basado en VIGS del par de homeólogos NibenIDA1 y NbenHAE.1 suprimió la abscisión de la corola en flores de N. benthamiana, lo que fue causado por un bloqueo en la desintegración de la pared celular en la base de la corola, probablemente debido a la falta de inducción de las enzimas hidrolíticas relacionadas con la abscisión. La sobreexpresión ectópica del homeólogo NbenIDA1A adelantó la senescencia y la abscisión de la corola y afectó negativamente al crecimiento de las plantas de N. benthamiana. Los resultados obtenidos utilizando la aproximación VIGS mostraron que el par de homeólogos NbenIDA1 y el receptor NbenHAE.1, posiblemente actuando como un módulo de señalización similar al descrito en Arabidopsis, regulan la abscisión de la corola en las flores de N. benthamiana. Este es, por tanto, el primer ejemplo en una especie vegetal distinta de Arabidopsis thaliana que indica que el módulo de señalización de abscisión IDA-HAE/HSL2 se conserva en las angiospermas. / [CA] L'abscisió és un procés de separació cel·lular actiu, organitzat i altament coordinat que permet el despreniment d'òrgans vegetatius i reproductius complets, mitjançant la modificació de l'adhesió cel·lular i la desintegració de les parets cel·lulars en llocs específics del cos de la planta coneguts com a zones d'abscisió. En Arabidopsis thaliana (Arabidopsis), l'abscisió d'òrgans florals i fulles caulinars està regulada per la interacció entre el pèptid hormonal (IDA), un parell de proteïnes cinases de tipus receptor redundants, (HAE i HSL2), i coreceptors de la família SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE. El coneixement sobre la maquinària molecular que regula l'abscisió en espècies de plantes d'importància econòmica de la família de les solanàcies és en l'actualitat escàs. En aquesta recerca de doctorat, es va realitzar una anàlisi funcional dels components del mòdul de senyalització d'abscisió IDA-HAE en N. benthamiana. A la primera secció d'aquest treball, es va estudiar el grau de conservació i la filogènia de les famílies de gens IDA-like i HAE-like en espècies rellevants de l'gènere Solanum, Capsicum i Nicotiana. Es va analitzar l'expressió d'aquests gens en l'al·lopoliploide N. benthamiana, per tal d'identificar membres implicats en l'abscisió i en la resposta a condicions d'estrès abiòtic, com la sequera. A la segona secció, es va avaluar l'efecte del silenciament i la sobreexpressió de NbenIDA1A i NbenIDA1B, dos homeòlegs IDA-like de N. benthamiana, que es van associar amb l'abscisió de la corol·la en la secció anterior. A més, també es va determinar l'efecte sobre l'abscisió de la corol·la del silenciament de NbenHAE.1. Les relacions filogenètiques entre els membres IDA-like de les solanàcies estudiades, van agrupar els dos parells d'homeòlegs de proteïnes NbenIDA1 i NbenIDA2 amb els prepropèptids d'Arabidopsis relacionats amb l'abscisió. L'anàlisi de les regions promotores a la recerca d'elements reguladors va revelar que aquests dos parells d'homeòlegs contenien elements de resposta tant hormonals com de resposta a la sequera, encara que NbenIDA2A mancava dels elements reguladors hormonals. Les anàlisis d'expressió gènica també indiquen que el parell d'homeòlegs NbenIDA1 es regulen positivament durant l'abscisió de la corol·la. Els parells NbenIDA1 i NbenIDA2 van mostrar una expressió diferencial tissular en condicions d'estrès hídric, ja que els homeòlegs NbenIDA1 es van induir en fulls estressades, mentre que els homeòlegs NbenIDA2, especialment NbenIDA2B, es van induir en arrels estressades. A les plantes amb creixement actiu no estressades, els nusos i els entrenusos van ser els teixits amb els nivells d'expressió més alts de tots els membres de la família IDA-like i els seus receptors HAE-like putatius. El silenciament basat en VIGS del parell d'homeòlegs NibenIDA1 i NbenHAE.1 va suprimir l'abscisió de la corol·la en flors de N. benthamiana, lo qual va ser causat per un bloqueig en la desintegració de la paret cel·lular a la base de la corol·la, probablement degut a la manca d'inducció dels enzims hidrolítics relacionades amb l'abscisió. La sobreexpressió ectòpica de l'homeòleg NbenIDA1A va avançar la senescència i l'abscisió de la corol·la i va afectar negativament el creixement de les plantes de N. benthamiana. Els resultats obtinguts utilitzant l'aproximació VIGS van mostrar que el parell d'homeòlegs NbenIDA1 i el receptor NbenHAE.1, possiblement actuant com un mòdul de senyalització similar al descrit en Arabidopsis, regulen l'abscisió de la corol·la en les flors de N. benthamiana. Aquest és, per tant, el primer exemple en una espècie vegetal diferent d'Arabidopsis thaliana que indica que el mòdul de senyalització d'abscisió IDA-HAE/HSL2 es conserva en les angiospermes. / [EN] Abscission is an active, organized and highly coordinated cell separation process that enables the detachment of entire vegetative and reproductive organs, through the modification of cell-to-cell adhesion and breakdown of cell walls at specific sites on the plant body, known as abscission zones. In Arabidopsis thaliana (Arabidopsis), abscission of floral organs and cauline leaves is regulated by the interaction of the hormonal peptide (IDA), a pair of redundant receptorlike protein kinases, (HAE and HSL2), and SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE co-receptors. Knowledge about the molecular machinery regulating abscission in economically important plant species of the Solanaceae family is currently scarce. In this PhD research, a functional analysis of the components of the abscission signaling module IDA-HAE in N. benthamiana was carried out. In the first section of this work, the degree of conservation and the phylogeny of the IDA-like and HAE-like gene families in relevant species of the genus Solanum, Capsicumand Nicotiana were determined. The expression of these genes in the allopolyploid N. benthamiana was analyzed, in order to identify members involved in abscission and in the response to abiotic stress conditions, such as drought. In the second section, the effect of the silencing and overexpression of NbenIDA1A and NbenIDA1B, two N. benthamiana IDA-like homeologs, which were associated with corolla abscission in the previous section, was evaluated. Furthermore, the effect on corolla abscission of the silencing of NbenHAE.1 was also determined. The phylogenetic relationships among the IDA-like members of the Solanaceae studied, grouped the two pairs of NbenIDA1 and NbenIDA2 protein homeologs with the Arabidopsis prepropeptides related to abscission. Analysis of promoter regions searching for regulatory elements showed that these two pairs of homeologs contained both hormonal and drought response elements, although NbenIDA2A lacked the hormonal regulatory elements. Gene expression analyses also indicate that the pair of NbenIDA1 homeologs are upregulated during corolla abscission. NbenIDA1 and NbenIDA2 pairs showed tissue differential expression under water stress conditions, since NbenIDA1 homeologs were highly expressed in stressed leaves, while NbenIDA2 homeologs, especially NbenIDA2B, were highly expressed in stressed roots. In non-stressed active growing plants, nodes and internodes were the tissues with the highest expression levels of all members of the IDA-like family and their putative HAE-like receptors. VIGS-based silencing of the pair of NibenIDA1 homeologs and NbenHAE.1 suppressed corolla abscission in flowers of N. benthamiana, which was supported by a blockage in cell wall disassembly at the corolla base, probably due to the lack of upregulation of abscission-related hydrolytic enzymes. Ectopic over-expression of the homeolog NbenIDA1A advanced the timing of both corolla senescence and abscission and negatively affected the growth of N. benthamiana plants. The results obtained using the VIGS approach showed that the pair of NbenIDA1 homeologs and the NbenHAE.1 receptor, possibly acting as a signaling module similar to that described in Arabidopsis, regulate corolla abscission in N. benthamiana flowers. This is therefore the first example in a plant species other than Arabidopsis thaliana that indicates that the IDA-HAE/HSL2 abscission signaling module is conserved in angiosperms. / Ventimilla Llora, D. (2021). The abscission regulatory module INFLORESCENCE DEFICIENT IN ABSCISSION (IDA) / HAESA (HAE)-like receptor kinases in Solanaceae species: Functional analysis in Nicotiana benthamiana [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/167777 / TESIS
180

Role of Protein Kinase Map4k4 in Energy Metabolism: A Dissertation

Danai, Laura V. 29 April 2015 (has links)
Systemic glucose regulation is essential for human survival as low or chronically high glucose levels can be detrimental to the health of an individual. Glucose levels are highly regulated via inter-organ communication networks that alter metabolic function to maintain euglycemia. For example, when nutrient levels are low, pancreatic α-cells secrete glucagon, which signals to the liver to promote glycogen breakdown and glucose production. In times of excess nutrient intake, pancreatic β-cells release insulin. Insulin signals to the liver to suppress hepatic glucose production, and signals to the adipose tissue and the skeletal muscle to take up excess glucose via insulin-regulated glucose transporters. Defects in this inter-organ communication network including insulin resistance can result in glucose deregulation and ultimately the onset of type-2 diabetes (T2D). To identify novel regulators of insulin-mediated glucose transport, our laboratory performed an siRNA-mediated gene-silencing screen in cultured adipocytes and measured insulin-mediated glucose transport. Gene silencing of Mitogen-activated protein kinase kinase kinase kinase 4 (Map4k4), a Sterile-20-related serine/threonine protein kinase, enhanced insulin-stimulated glucose transport, suggesting Map4k4 inhibits insulin action and glucose transport. Thus, for the first part of my thesis, I explore the role of Map4k4 in cultured adipose cells and show that Map4k4 also represses lipid synthesis independent of its effects on glucose transport. Map4k4 inhibits lipid synthesis in a Mechanistic target of rapamycin complex 1 (mTORC1)- and Sterol regulatory element-binding transcription factor 1 (Srebp-1)-dependent mechanism and not via a c-Jun NH2-terminal kinase (Jnk)-dependent mechanism. For the second part of my thesis, I explore the metabolic function of Map4k4 in vivo. Using mice with loxP sites flanking the Map4k4 allele and a ubiquitously expressed tamoxifen-activated Cre, we inducibly ablated Map4k4 expression in adult mice and found significant improvements in metabolic health indicated by improved fasting glucose and whole-body insulin action. To assess the role of Map4k4 in specific metabolic tissues responsible for systemic glucose regulation, we employed tissue-specific knockout mice to deplete Map4k4 in adipose tissue using an adiponectin-cre transgene, liver using an albumin-cre transgene, and skeletal muscle using a Myf5-cre transgene. Ablation of Map4k4 expression in adipose tissue or liver had no impact on whole body glucose homeostasis or insulin resistance. However, we surprisingly found that Map4k4 depletion in Myf5-positive tissues, which include skeletal muscles, largely recapitulates the metabolic phenotypes observed in systemic Map4k4 knockout mice, restoring obesity-induced glucose intolerance and insulin resistance. Furthermore these metabolic changes were associated with enhanced insulin signaling to Akt in the visceral adipose tissue, a tissue that is nearly devoid of Myf5-positive cells and does not display changes in Map4k4 expression. Thus, these results indicate that Map4k4 in Myf5-positive cells, most likely skeletal muscle cells, inhibits whole-body insulin action and these effects may be mediated via an indirect effect on the visceral adipose tissue. The results presented here provide evidence for Map4k4 as a potential therapeutic target for the treatment of insulin resistance and T2D.

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