Global ETD Search

1	Investigation into the molecular mechanism of nitrogen metabolite repression Cocklin, Simon January 2001 (has links) No description available. 572.8
2	Immunomodulation par le produit du gène vpr du virus de l'immunodéficience humaine de type 1 Roux, Philippe January 1997 (has links) Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal. VIH-1 Interleukine-8 Transactivation NF-kB
3	Characterization of the Meq oncoproteins of Marek's disease virus vaccine strain CVI988/Rispens Ajithdoss, Dharani K. 2009 May 1900 (has links) Marek?s disease virus serotype-1 (MDV-1) causes T cell lymphomas in chickens. Vaccines prepared from attenuated CVI988/Rispens MDV-1 strain currently offer the best protection. Although attenuated CVI988 is non-oncogenic, it codes for two forms of the MDV-1 oncoprotein Meq (CVI-Meq and CVI-L Meq). In this study, both CVI-Meq proteins, like the Meq protein of Md5 (a very virulent oncogenic strain), transformed Rat-2 and NIH3T3 cells. Both CVI-Meq and CVI-L Meq proteins activated the meq promoter only in the presence of chicken c-Jun (CK-Jun) whereas Md5-Meq activated the same promoter irrespective of CK-Jun co-expression. However, all three Meq proteins bound the meq promoter regardless of whether CK-Jun was co-expressed. We constructed three chimeric Meq proteins, namely, Md5-CVI-Meq, CVI-Md5-Meq, and Md5-CVI-L by exchanging domains between Md5 meq and CVI meq genes. Although these chimeric Meq proteins transactivated the meq promoter, the activation was significantly less than Md5-Meq. The current study indicated amino acid residues at positions 71 and 320 were important for Md5-Meq increase transcription of its own promoter. All three Meq proteins activated the MDV gB, MMP-3 and Bcl-2 promoters and suppressed transcription from the MDV pp38/pp14 bidirectional promoter. CVI-Meq protein in the context of other Md5 genes caused tumors only in 6% of chickens when compared to parental rMd5 (a very virulent strain), which induced lymphomas in 100% of chickens, (Reddy and Lupiani, unpublished data). Taking advantage of these two different phenotypes, we constructed two chimeric Meq proteins, Md5/CVI-Meq and CVI/Md5-Meq, by exchanging DNA binding and transactivation domains between Md5-Meq and CVI-Meq to understand the role of the DNA binding and the transactivation domains of Meq in transformation. rMd5-Md5/CVI-Meq virus caused 100% mortality in chickens and T lymphomas were found at high frequency in the peripheral nerves and various organs such as the heart, spleen, kidney, and gonads. On the other hand, rMd5-CVI/Md5-Meq induced disease in 36% of chickens on average and lesions were primarily in the nerves. Very rarely, lesions were present in the spleen and heart and no tumors were present in the kidney or gonads. Our results suggest that both the DNA binding domain and transactivation domain of Meq could cooperatively determine the nature of lymphomas in chickens. Chickens lymphoma Marek's disease virus CVI988 Meq transformation transactivation
4	Overexpression, Purification and Biophysical Studies of the Carboxy Terminal Transactivation Domain of Vmw65 from Herpes Simplex Virus Type 1 Donaldson, Logan William Frederick 09 1900 (has links) In order to facilitate a biophysical analysis of the carboxy terminal acidic transactivation domain (AAD) of Vmw65 from Herpes Simplex Virus Type 1 (HSV-1), an overexpression system in Escherichia coli was constructed and optimized to produce milligram quantities of this polypeptide. Purification of the polypeptide was facilitated by creating a fusion protein to glutathione S-transferase (GST) from Schizosoma japonicum using a commercially available vector. Upon thrombin digestion of the fusion protein, the carrier and AAD products were resolved by anion-exchange chromatography. With typically 15 mg of AAD available from a 12 litre culture, several biophysical studies were initiated. Circular dichroism and fluorescence spectroscopy both described a polypeptide with an extended structure reminicent of a random-coil; that is, it did not possess substantial quantities of known elements of secondary structure such as a-helicies and β-sheets under physiological conditions. A new structure high in α-helical content was induced upon addition of trifluoroethanol to mimic a hydrophobic milieu. Ultracentrifugation data supported the spectroscopic observations by describing an extended, monomeric polypeptide. The ultimate goal of the study, a teritiary structure, was sought by attempting to crystallize AAD with popular salts and organic solvents. Biologically, the described random-coil structure of AAD could be relevant to its role as a promoter and stablizer of the transcriptional pre-initation complex, the determining step in gene expression. A structurally labile domain would support AAD’s ability to interact with several targets including TFIID and TFIIB, though not necessarily by similar mechanisms. The requirement for a drastic conformational change such as a random-coil to α-helical transition currently remains unclear though observations made in this study of AAD in trifluoroethanol have shown that a conformational change is indeed possible. With a means of producing large quantities of AAD, the opportunity now arises to study its interaction with available cloned targets. The ensuing biophysical studies will then provide a greater understanding of AAD’s important role in gene expression. / Thesis / Master of Science (MSc) Herpes Simplex Virus Type 1 Carboxy Terminal Transactivation Domain
5	Rôle de l'adrénomédulline dans le Mésothéliome pleural malin et le cancer bronchopulmonaire / Role of adrenomedullin in malignant pleural mesothelioma and lung cancer Tounsi, Asma 20 October 2014 (has links) Le mésothéliome pleural malin (MPM) est une tumeur rare et agressive qui se développe au niveau de la plèvre.L'Adrénomedulline (AM) est un peptide de 52 acides aminés. Il intervient dans plusieurs processus physiologiques et physiopathologiques. Il est surexprimé dans plusieurs tumeurs où il joue un rôle important dans la croissance tumorale.Dans un premier temps nous avons montré que l'AM et ses récepteurs sont exprimés dans des biopsies de patients atteints de MPM suggérant son implication dans la croissance tumorale du MPM. In vitro l'incubation de lignées de MPM: H2452 et MSTO_211H avec des anticorps αAM ou αAMR inhibent la prolifération, l'invasion et la migration cellulaires. In vivo, le traitement avec un anticorps αAM ou l'antagoniste AM22-52, inhibe la croissance tumorale des xénogreffes de MSTO_211H par rapport au groupe contrôle. L'analyse histologique montre une augmentation significative de l'apoptose et une diminution importante de la vascularisation chez les tumeurs traitées par rapport aux tumeurs contrôles. Ces résultats démontrent le rôle important joué par l'AM dans la croissance tumorale du MPM et fait du système de l'AM une cible thérapeutique potentielle.Dans un deuxième temps, Nous avons émis l'hypothèse de la transactivation de l'EGFR par l'AM. Notre hypothèse s'est concrétisée dans la mesure où L'inhibition de l'EGFR par un inhibiteur spécifique l'AG1478 abolie l'activation de ERK par l'AM,La phosphorylation de l'EGFR par l'AM,La neutralisation de l'EGFR avec son propre anticorps inhibe la phosphorylation par l'AM suggérant une activation ligand dépendante. Ces résultats nous permettent de mieux comprendre le mécanisme d'action de l'AM. / Malignant pleural mesothelioma (MPM) grows aggressively in the thoracic cavity without curative possibilities, underlining the need for new therapeutic targets. Adrenomedullin (AM), a multifunctional peptide, is highly expressed in several tumors and plays an important role in angiogenesis and tumor. In the first part of our work, QRT-PCR showed an increase of AM mRNA levels in MPM when compared to normal pleura tissue. Immunohistochemically, AM and its receptors were localized in the carcinomatous epithelial compartment of MPM. The MPM cell lines H2452 and MSTO_211H expressed AM with a significant increase under hypoxia. The proliferation, migration and invasion of MPM cells are decreased by anti-AM and anti-AM receptors antibodies (αAM and αAMR) supporting that MPM cells can be regulated by AM. In vivo, αAM and AM22-52 antagonist therapies of MSTO_211H xenografts blocked angiogenesis and stimulated apoptosis, resulting in tumor regression. Histologic examination of treated tumors showed evidences of disruption of tumor vasculature. These findings highlight the implication of the AM pathway in the MPM growth and in neovascularization by supplying/amplifying signals essential for pathologic neoangiogenesis and lymphangiogenesis.In the second part of this work, we reported that the EGFR becomes rapidly tyrosine-phosphorylated upon stimulation of lung cancer cells lines with AM, suggesting that there is an intracellular mechanism for transactivation. Specific inhibition of EGFR function by the AG1478 or EGFR blocking antibody suppressed MAPK activation. These results suggest strongly a ligand-dependent mechanism of EGFR transactivation by AM. Adrénomédulline Mésothéliome pleural malin Croissance tumorale Transactivation Egfr Cancer du poumon Adrenomedullin Malignant pleural mesothelioma Tumor growth Transactivation Egfr Lung cancer
6	Study of the Phosphorylation of PAX6 Transactivation Domain In Vitro and In Vivo Peipei, Qi 02 May 2022 (has links) No description available. Biology Cellular Biology Genetics Histology Zoology
7	Identification et caractérisation d'un domaine de transactivation dans l’hélicase E1 des papillomavirus humains Morin, Geneviève 04 1900 (has links) Les papillomavirus sont des virus à ADN qui infectent la peau et les muqueuses. Ils causent des verrues et peuvent aussi mener au développement de cancers, dont le cancer du col de l’utérus. La réplication de leur génome nécessite deux protéines virales : l’hélicase E1 et le facteur de transcription E2, qui recrute E1 à l’origine de réplication virale. Pour faciliter l’étude de la réplication du génome viral, un essai quantitatif et à haut débit basé sur l’expression de la luciférase a été développé. Parallèlement, un domaine de transactivation a été identifié dans la région régulatrice N-terminale de la protéine E1. La caractérisation de ce domaine a montré que son intégrité est importante pour la réplication de l’ADN. Cette étude suggère que le domaine de transactivation de E1 est une région protéique intrinsèquement désordonnée qui permet la régulation de la réplication du génome viral par son interaction avec diverses protéines. / Papillomaviruses are small DNA viruses that infect skin and mucosa. They cause warts and can also lead to the development of cancers, including cervical cancer. Replication of their genome requires two viral proteins: the E1 helicase and the E2 transcription factor, which recruits E1 to the viral origin of replication. To facilitate the study of viral genome replication, a quantitative and high-throughput assay based on luciferase expression has been developed. In parallel, a transactivation domain has been identified in the N-terminal regulatory region of the E1 protein. Characterization of this domain showed that its integrity is important for DNA replication. This study suggests that the E1 transactivation domain is an intrinsically unstructured protein region that allows regulation of viral genome replication by its interaction with diverse proteins. Papillomavirus Hélicase E1 Réplication de l'ADN Luciférase SV40 Transactivation Désordre protéique Papillomavirus Helicase E1 DNA replication Luciferase SV40 Transactivation Protein disorder
8	Identification et caractérisation d'un domaine de transactivation dans l’hélicase E1 des papillomavirus humains Morin, Geneviève 04 1900 (has links) Les papillomavirus sont des virus à ADN qui infectent la peau et les muqueuses. Ils causent des verrues et peuvent aussi mener au développement de cancers, dont le cancer du col de l’utérus. La réplication de leur génome nécessite deux protéines virales : l’hélicase E1 et le facteur de transcription E2, qui recrute E1 à l’origine de réplication virale. Pour faciliter l’étude de la réplication du génome viral, un essai quantitatif et à haut débit basé sur l’expression de la luciférase a été développé. Parallèlement, un domaine de transactivation a été identifié dans la région régulatrice N-terminale de la protéine E1. La caractérisation de ce domaine a montré que son intégrité est importante pour la réplication de l’ADN. Cette étude suggère que le domaine de transactivation de E1 est une région protéique intrinsèquement désordonnée qui permet la régulation de la réplication du génome viral par son interaction avec diverses protéines. / Papillomaviruses are small DNA viruses that infect skin and mucosa. They cause warts and can also lead to the development of cancers, including cervical cancer. Replication of their genome requires two viral proteins: the E1 helicase and the E2 transcription factor, which recruits E1 to the viral origin of replication. To facilitate the study of viral genome replication, a quantitative and high-throughput assay based on luciferase expression has been developed. In parallel, a transactivation domain has been identified in the N-terminal regulatory region of the E1 protein. Characterization of this domain showed that its integrity is important for DNA replication. This study suggests that the E1 transactivation domain is an intrinsically unstructured protein region that allows regulation of viral genome replication by its interaction with diverse proteins. Papillomavirus Hélicase E1 Réplication de l'ADN Luciférase SV40 Transactivation Désordre protéique Papillomavirus Helicase E1 DNA replication Luciferase SV40 Transactivation Protein disorder
9	La 7β-hydroxy-épiandrostérone dans des modèles in vitro de cancer du sein : effets anti-estrogéniques et rôle des récepteurs des estrogènes / The DHEA metabolite 7β-hydroxy-epiandrosterone exerts anti-estrogenic effects on breast cancer cell lines Niro, Sandra 29 May 2012 (has links) La 7β-hydroxy-épiandrostérone, stéroïde endogène dérivant de la DHEA, présente des propriétés anti-inflammatoires. En effet, elle module la voie des prostaglandines (PGs) en inhibant la production de la PGE2 pro-inflammatoires et en augmentant la production de la 15-Deoxy-∆12,14-PGJ2 cyto-protectrice in vivo et in vitro. Les faibles doses de 7β-hydroxy-épiandrostérone (1nM, 10nM, 100nM) pour lesquelles ces effets sont observés, suggèrent une liaison à un récepteur spécifique. L’inflammation et la production des PGs jouent un rôle important dans le développement et la prolifération des tumeurs mammaires estrogéno-dépendantes. Le 17β-estradiol (E2), en se fixant sur les récepteurs des estrogènes (REs), induit la production de PGE2 et la prolifération cellulaire dans ces cellules tumorales. De ce fait, notre objectif était de tester les effets de la 7β-hydroxy-épiandrostérone sur la prolifération (comptage avec exclusion au bleu trypan), le cycle cellulaire et l’apoptose (cytométrie de flux) dans les lignées cellulaires de cancer du sein MCF-7 (REα+, REβ+, GPR30+) et MDA-MB-231 (REα-, REβ+, GPR30+) et d’identifier une(des) cible(s) potentielle(s) dans ces cellules (transactivation) et dans des cellules négatives pour les REs nucléaires SKBr3 (GPR30+) (études de prolifération). Cette étude a montré que la 7β-hydroxy-épiandrostérone exerce des effets anti-estrogéniques dans les cellules MCF-7 et MDA-MB-231 associés à une inhibition de la prolifération et un arrêt du cycle cellulaire. Les études de transactivation et de prolifération avec les agonistes spécifiques des REs ont montré une interaction avec le REβ. De plus, les résultats des études de proliférations sur les trois lignées cellulaires suggèrent que la 7β-hydroxy-épiandrostérone pourrait également interagir avec le GPR30. Ces résultats indiquent que ce stéroïde androgène agit comme un anti-estrogène. De plus, c’est la première fois qu’un stéroïde androgène à faible dose montre une action anti-proliférative dans des lignées de cancers du sein. Des études ultérieures restent à réaliser afin de mieux comprendre ces effets observés. / 7β-hydroxy-epiandrosterone, an endogenous androgenic derivative of DHEA, has previously been shown to exert anti-inflammatory action in vitro and in vivo via a shift from prostaglandin E2 (PGE2) to 15-deoxy-∆12,14-PGJ2 production. This modulation in prostaglandin production was obtained with low concentrations of 7β-hydroxy-epiandrosterone (1–100 nM) and suggested that it might act through a specific receptor. Inflammation and prostaglandin synthesis is important in the development and survival of estrogen-dependent mammary cancers. Estrogen induced PGE2 production and cell proliferation via its binding to estrogen receptors (ERs) in these tumors. Our objective was to test the effects of 7β-hydroxy-epiandrosterone on the proliferation (by counting with trypan blue exclusion), cell cycle and cell apoptosis (by flow cytometry) of breast cancer cell lines MCF-7 (ERα+, ERβ +, G-protein coupled receptor 30 : GPR30+) and MDA-MB-231 (ERα-, ERβ +, GPR30+) and to identify a potential target of this steroid in these cell lineages (by transactivations) and in the nuclear ER-negative SKBr3 cells (GPR30+) (by proliferation assays). 7β-hydroxy-epiandrosterone exerted anti-estrogenic effects in MCF-7 and MDA-MB-231 cells associated with cell proliferation inhibition and cell cycle arrest. Moreover, transactivation and proliferation with ER agonists assays indicated that 7β-hydroxy-epiandrosterone interacted with ERβ. Data from proliferation assays on the MCF-7, MDA-MB-231 and SKBr3 cell lines suggested that 7β-hydroxy-epiandrosterone may also act through the membrane GPR30 receptor.These results support that this androgenic steroid acts as an anti-estrogenic compound. Moreover, this is the first evidence that low doses of androgenic steroid exert antiproliferative effects in these mammary cancer cells. Further investigations are needed to improve understanding of the observed actions of endogenous 7β-hydroxy-epiandrosterone. 7β-hydroxy-épiandrostérone Récepteurs des estrogènes Lignées de carcinome mammaire Prolifération Transactivation 7β-hydroxy-epiandrosterone Estrogen receptors Breast cancer cell lines Proliferation Transactivation
10	Nuclear localization and transactivation of sys-1/β-catenin, a regulator of Wnt target gene expression and asymmetric cell division Wolf, Arielle Koonyee-Lam 01 May 2019 (has links) Human β-catenin is a dual-functioned protein responsible for regulating cell-cell adhesion and gene transcription. To activate gene transcription, β-catenin must be shuttled into the nucleus where it interacts with various co-activators to activates gene transcription. Various studies have identified proteins that bind to specific amino acid sequences in β-catenin for proper gene transcription regulation. Compared to the single beta-catenin in most animals, C. elegans surprisingly contains four β-catenins. Though structurally similar, these beta-catenins became distinct during nematode evolution, resulting in four β-catenins that differ in functions. SYS-1 is one such β-catenin that loses its adhesion ability and is specialized in activating transcription of genes in the nucleus. Across different animals, β-catenin shares similar amino acid sequences and structure. SYS-1, while it shares the similar structure to other β-catenins, is the most divergent C. elegans beta-catenin when comparing amino acid sequences. In addition, while SYS-1 interacts with homologs of proteins that bind to and regulate human β-catenin, the binding sites of those proteins to SYS-1 is unknown. Here, we identify novel sites for beta-catenin’s gene transcription role within SYS-1 that greatly differed from human β-catenin. We also identify a novel mechanism for beta-catenin nuclear import, which is still largely unknown in any system, by identifying a candidate importer that associates with SYS-1 is required for SYS-1 dependent cell fate. In summary, though SYS-1 has a well-conserved function dictating cell fate in response to developmental signals, it has evolved novel regulatory, functional and localization mechanisms and therefore serves as a model for the plasticity nuclear importer that helps shuttle SYS-1 into the nucleus identified specific regions in SYS-1 that is involved in activating transcription which will result in cell fate changes. asymmetric cell division b-catenin nuclear export nuclear import SYS-1 transactivation Cell Biology

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