Global ETD Search

1	Identificação da família BCL2 como alvo terapêutico no tratamento das neoplasias mieloproliferativas associadas à mutação da JAK2V617F / BCL2 family as potential therapeutical targets in the treatment of JAK2V617F- associated myeloproliferative neoplasms Leal, Cristina Tavares 01 September 2017 (has links) As neoplasias mieloproliferativas (NMPs) negativas para o rearranjo t(9;22)/BCRABL1, incluindo Policitemia Vera (PV), Trombocitemia Essencial (TE) e Mielofibrose Primária (MFP), são doenças hematopoéticas clonais e estão frequentemente associadas à mutação JAK2V617F. Apesar dos avanços no conhecimento da fisiopatologia após a descoberta da mutação JAK2V617F e do desenvolvimento de inibidores da JAK2, o tratamento permanece não curativo. Sabe-se que as célulastronco mais primitivas nas NMPs são responsáveis pela iniciação da doença e que a expansão dos precursores mieloeritróides contribui para o fenótipo clínico. Dados recentes obtidos com ensaios in vitro mostram que as proteínas da família BCL2, reguladoras da apoptose mitocondrial, desempenham um papel relevante na patogênese das NMPs. Acreditamos que a expressão anômala de BCL2 nas células progenitoras hematopoéticas (CPH) das NMPs pode contribuir para a patogênese desse grupo de doenças. Avaliamos a expressão gênica, por meio de PCR em Tempo Real, da família BCL2 (genes antiapoptóticos BCL-xL e BCL2 e o pró-apoptótico BIM) nas diferentes subpopulações de progenitores hematopoéticos murinos (de um modelo condicional knockin de expressão heterozigótica condicional da Jak2V617F) e de pacientes portadores de NMPs bem como sua contribuição para o fenótipo da doença e resposta ao inibidores da JAK2 (com a droga ruxolitinibe) e/ou inibição da família BCL2 (com o inibidor de BCL2 obatoclax). Não encontramos diferença de expressão basal dos genes BCL2, BCL-xL e BIM nas células CD34+ bem como nas subpopulações de células CD34+38-/+ de pacientes com NMPs, independente da presença da mutação JAK2V617F, em relação às células CD34+ e subpopulações CD34+38-/+ dos controles (p>0.05). Nas células CD34+ de pacientes com TE encontramos aumento de expressão de BCL2 em relação às células CD34+ pacientes com MFP (p=0.03). No modelo transgênico de camundongos Jak2 wt/VF (que apresentam uma NMP semelhante à PV) e Jak2 wt/wt (controles), comparamos a expressão diferencial dos genes da família Bcl2 em precursores hematopoéticos imaturos (LSKs) e progenitores mieloides mais maduros (MPs). A expressão do BclxL em MPs de camundongos wt/VF foi maior em relação à subpopulação de células LSKs e em relação as duas subpopulações de células dos controles (p=0.0011). Não houve diferença significativa de expressão do Bcl2 nas subpopulações de células LSKs e MPs de animais wt/VF e wt/wt (p=0.12). Observou-se menor expressão de Bim em LSKs em relação às células MPs dos animais mutados (p=0.026), diferença essa não observada entre os controles Jak2 wt/wt. O tratamento isolado com inibidor de JAK2 ou de BCL2 resultou em aumento de expressão do Bim nas CPH (LSKs e MPs) de camungongos Jak2 wt/VF em relação aos animais Jak2 wt/wt. Este aumento da expressão de Bim foi ainda mais evidente após o tratamento das células com a combinação das duas drogas quando comparadas às células não tratadas ou tratadas com um dos dois inibidores, sendo maior em animais doentes do que em animais controles (p<0.0001). A análise do efeito do tratamento com os inibidores de JAK2 e BCL2 na indução de apoptose por meio de citometria de fluxo (marcação com anexina/7-AAD) revelou que as células LSKs foram mais resistentes à apoptose tardia do que as células MPs independentemente da mutação da JAK2 (p<0.05). O tratamento com obatoclax resultou em indução de apoptose diferentemente do que foi observado com o tratamento com ruxolitinibe (p=0.594) nas células MPs de animais Jak2 wt/VF. Ademais, o tratamento combinado com ruxolitinibe e obatoclax resultou no aumento da apoptose nas células MPs dos animais com fenótipo de PV (Jak2 wt/VF) em relação aos animais Jak2 wt/wt (p=0.05). Em conclusão, demonstramos que a resistência à apoptose nas NMPs ocorre desde as CPH iniciadoras da doença. Nossos resultados sugerem que a modulação da apoptose mitocondrial pode ser uma nova estratégia terapêutica para pacientes com NMP em combinação aos inibidores de JAK2, na medida em que atua tanto nas CPH que iniciam a doença como nos MPs, responsáveis pelos sinais e sintomas de mieloproliferação. / Myeloproliferative Neoplasms (MPNs) negative for t(9;22)/BCR-ABL1 rearrangement, including Polycythemia Vera (PV), Essential Thrombocythemia (ET) and Primary Myelofibrosis (PMF), are clonal hematopoietic diseases and are often associated with the JAK2V617F mutation. Despite advances in the pathophysiology knowledge after the discovery of the JAK2V617F mutation and the development of JAK2 inhibitors, treatment remains non-curative. It is known that MPN primitive stem cells are essential for the initiation of the disease and that the expansion of the myeloeritroid precursors contributes to the clinical phenotype. Recent data, obtained with in vitro assays, showed that BCL2 family proteins, regulators of mitochondrial apoptosis, play a relevant role in the pathogenesis of MPNs. We believe that the anomalous expression of BCL2 in hematopoietic progenitor cells (HPCs) of MPNs may contribute to their pathogenesis. We evaluated BCL2 family (antiapoptotic genes BCL-xL and BCL2 and the pro-apoptotic BIM) gene expression by real-time PCR in different subpopulations of hematopoietic progenitors from a conditional Jak2V617F knockin murine model and from patients with MPNs as well as their contribution to the disease phenotype and response to JAK2 inhibitors (with ruxolitinib) and/or to the inhibition of the BCL2 family (with the BH3-mimetic obatoclax). We found no difference in the basal expression of the BCL2, BCL-xL and BIM in CD34+ cells as well as in subpopulations of CD34+ 38-/+ cells from patients with MPNs, regardless of the presence of the JAK2V617F mutation. In CD34+ cells obtained from patients with ET, we found an increase of BCL2 expression when compared to CD34+ cells with PMF (p=0.03). In the Jak2 wt/VF transgenic mice (that develop a MPN similar to PV) and Jak2 wt/wt controls, we compared the differential expression of Bcl2 family genes in immature hematopoietic precursors (LSKs) and more mature myeloid progenitors (MPs). Expression of Bcl-xL in MPs of wt/VF mice was greater when compared to LSKs and to the two progenitor subpopulations of control cells (p=0.0011). There was no significant difference in Bcl2 expression between the subpopulations of LSKs and MPs from wt/VF and wt/wt animals (p=0.12). Lower Bim expression in LSKs than in MPs was observed in samples from JAK2-mutated animals (p=0.026). Such difference was not observed between the Jak2 wt/wt subpopulations. Treatment with JAK2 or BCL2 inhibitors alone resulted in increased Bim expression in LSKs and MPs of the Jak2 wt/VF mice when compared to Jak2 wt/wt animals. This increase in Bim expression was even more evident when these cells were treated with the combination of the two drugs as compared to single treatment with one of the two inhibitors, being higher in mutaded than control animals (p<0.0001). The analysis of apoptosis by flow cytometry (annexin / 7-AAD labeling) revealed that LSK cells were more resistant to late apoptosis than MP cells regardless of the JAK2 mutation (p<0.05). Treatment with obatoclax resulted in greater apoptosis induction than it was observed with ruxolitinib treatment (p=0.594) on MP cells of Jak2 wt/VF animals. In addition, the combined treatment with ruxolitinib and obatoclax resulted in increased apoptosis in MP cells of animals with the PV phenotype (Jak2 wt/VF) as compared to the Jak2 wt/wt animals (p=0.05). In conclusion, we demonstrated that resistance to apoptosis in MPNs occurs at the level of the hematopoietic progenitors that initiate the disease. Our results suggest that modulation of mitochondrial apoptosis may be a new therapeutic strategy for MPN patients in combination with JAK2 inhibitors, as it acts on both the disease initiating and more mature progenitors, responsible for the clinical findings of myeloproliferation. Apoptose Apoptosis BCL2 BCL2 BCL2 inhibitor Inibidor da JAK2 Inibidor de BCL2 JAK2 inhibitor Myeloproliferative neoplasms Neoplasias mieloproliferativas
2	Identificação da família BCL2 como alvo terapêutico no tratamento das neoplasias mieloproliferativas associadas à mutação da JAK2V617F / BCL2 family as potential therapeutical targets in the treatment of JAK2V617F- associated myeloproliferative neoplasms Cristina Tavares Leal 01 September 2017 (has links) As neoplasias mieloproliferativas (NMPs) negativas para o rearranjo t(9;22)/BCRABL1, incluindo Policitemia Vera (PV), Trombocitemia Essencial (TE) e Mielofibrose Primária (MFP), são doenças hematopoéticas clonais e estão frequentemente associadas à mutação JAK2V617F. Apesar dos avanços no conhecimento da fisiopatologia após a descoberta da mutação JAK2V617F e do desenvolvimento de inibidores da JAK2, o tratamento permanece não curativo. Sabe-se que as célulastronco mais primitivas nas NMPs são responsáveis pela iniciação da doença e que a expansão dos precursores mieloeritróides contribui para o fenótipo clínico. Dados recentes obtidos com ensaios in vitro mostram que as proteínas da família BCL2, reguladoras da apoptose mitocondrial, desempenham um papel relevante na patogênese das NMPs. Acreditamos que a expressão anômala de BCL2 nas células progenitoras hematopoéticas (CPH) das NMPs pode contribuir para a patogênese desse grupo de doenças. Avaliamos a expressão gênica, por meio de PCR em Tempo Real, da família BCL2 (genes antiapoptóticos BCL-xL e BCL2 e o pró-apoptótico BIM) nas diferentes subpopulações de progenitores hematopoéticos murinos (de um modelo condicional knockin de expressão heterozigótica condicional da Jak2V617F) e de pacientes portadores de NMPs bem como sua contribuição para o fenótipo da doença e resposta ao inibidores da JAK2 (com a droga ruxolitinibe) e/ou inibição da família BCL2 (com o inibidor de BCL2 obatoclax). Não encontramos diferença de expressão basal dos genes BCL2, BCL-xL e BIM nas células CD34+ bem como nas subpopulações de células CD34+38-/+ de pacientes com NMPs, independente da presença da mutação JAK2V617F, em relação às células CD34+ e subpopulações CD34+38-/+ dos controles (p>0.05). Nas células CD34+ de pacientes com TE encontramos aumento de expressão de BCL2 em relação às células CD34+ pacientes com MFP (p=0.03). No modelo transgênico de camundongos Jak2 wt/VF (que apresentam uma NMP semelhante à PV) e Jak2 wt/wt (controles), comparamos a expressão diferencial dos genes da família Bcl2 em precursores hematopoéticos imaturos (LSKs) e progenitores mieloides mais maduros (MPs). A expressão do BclxL em MPs de camundongos wt/VF foi maior em relação à subpopulação de células LSKs e em relação as duas subpopulações de células dos controles (p=0.0011). Não houve diferença significativa de expressão do Bcl2 nas subpopulações de células LSKs e MPs de animais wt/VF e wt/wt (p=0.12). Observou-se menor expressão de Bim em LSKs em relação às células MPs dos animais mutados (p=0.026), diferença essa não observada entre os controles Jak2 wt/wt. O tratamento isolado com inibidor de JAK2 ou de BCL2 resultou em aumento de expressão do Bim nas CPH (LSKs e MPs) de camungongos Jak2 wt/VF em relação aos animais Jak2 wt/wt. Este aumento da expressão de Bim foi ainda mais evidente após o tratamento das células com a combinação das duas drogas quando comparadas às células não tratadas ou tratadas com um dos dois inibidores, sendo maior em animais doentes do que em animais controles (p<0.0001). A análise do efeito do tratamento com os inibidores de JAK2 e BCL2 na indução de apoptose por meio de citometria de fluxo (marcação com anexina/7-AAD) revelou que as células LSKs foram mais resistentes à apoptose tardia do que as células MPs independentemente da mutação da JAK2 (p<0.05). O tratamento com obatoclax resultou em indução de apoptose diferentemente do que foi observado com o tratamento com ruxolitinibe (p=0.594) nas células MPs de animais Jak2 wt/VF. Ademais, o tratamento combinado com ruxolitinibe e obatoclax resultou no aumento da apoptose nas células MPs dos animais com fenótipo de PV (Jak2 wt/VF) em relação aos animais Jak2 wt/wt (p=0.05). Em conclusão, demonstramos que a resistência à apoptose nas NMPs ocorre desde as CPH iniciadoras da doença. Nossos resultados sugerem que a modulação da apoptose mitocondrial pode ser uma nova estratégia terapêutica para pacientes com NMP em combinação aos inibidores de JAK2, na medida em que atua tanto nas CPH que iniciam a doença como nos MPs, responsáveis pelos sinais e sintomas de mieloproliferação. / Myeloproliferative Neoplasms (MPNs) negative for t(9;22)/BCR-ABL1 rearrangement, including Polycythemia Vera (PV), Essential Thrombocythemia (ET) and Primary Myelofibrosis (PMF), are clonal hematopoietic diseases and are often associated with the JAK2V617F mutation. Despite advances in the pathophysiology knowledge after the discovery of the JAK2V617F mutation and the development of JAK2 inhibitors, treatment remains non-curative. It is known that MPN primitive stem cells are essential for the initiation of the disease and that the expansion of the myeloeritroid precursors contributes to the clinical phenotype. Recent data, obtained with in vitro assays, showed that BCL2 family proteins, regulators of mitochondrial apoptosis, play a relevant role in the pathogenesis of MPNs. We believe that the anomalous expression of BCL2 in hematopoietic progenitor cells (HPCs) of MPNs may contribute to their pathogenesis. We evaluated BCL2 family (antiapoptotic genes BCL-xL and BCL2 and the pro-apoptotic BIM) gene expression by real-time PCR in different subpopulations of hematopoietic progenitors from a conditional Jak2V617F knockin murine model and from patients with MPNs as well as their contribution to the disease phenotype and response to JAK2 inhibitors (with ruxolitinib) and/or to the inhibition of the BCL2 family (with the BH3-mimetic obatoclax). We found no difference in the basal expression of the BCL2, BCL-xL and BIM in CD34+ cells as well as in subpopulations of CD34+ 38-/+ cells from patients with MPNs, regardless of the presence of the JAK2V617F mutation. In CD34+ cells obtained from patients with ET, we found an increase of BCL2 expression when compared to CD34+ cells with PMF (p=0.03). In the Jak2 wt/VF transgenic mice (that develop a MPN similar to PV) and Jak2 wt/wt controls, we compared the differential expression of Bcl2 family genes in immature hematopoietic precursors (LSKs) and more mature myeloid progenitors (MPs). Expression of Bcl-xL in MPs of wt/VF mice was greater when compared to LSKs and to the two progenitor subpopulations of control cells (p=0.0011). There was no significant difference in Bcl2 expression between the subpopulations of LSKs and MPs from wt/VF and wt/wt animals (p=0.12). Lower Bim expression in LSKs than in MPs was observed in samples from JAK2-mutated animals (p=0.026). Such difference was not observed between the Jak2 wt/wt subpopulations. Treatment with JAK2 or BCL2 inhibitors alone resulted in increased Bim expression in LSKs and MPs of the Jak2 wt/VF mice when compared to Jak2 wt/wt animals. This increase in Bim expression was even more evident when these cells were treated with the combination of the two drugs as compared to single treatment with one of the two inhibitors, being higher in mutaded than control animals (p<0.0001). The analysis of apoptosis by flow cytometry (annexin / 7-AAD labeling) revealed that LSK cells were more resistant to late apoptosis than MP cells regardless of the JAK2 mutation (p<0.05). Treatment with obatoclax resulted in greater apoptosis induction than it was observed with ruxolitinib treatment (p=0.594) on MP cells of Jak2 wt/VF animals. In addition, the combined treatment with ruxolitinib and obatoclax resulted in increased apoptosis in MP cells of animals with the PV phenotype (Jak2 wt/VF) as compared to the Jak2 wt/wt animals (p=0.05). In conclusion, we demonstrated that resistance to apoptosis in MPNs occurs at the level of the hematopoietic progenitors that initiate the disease. Our results suggest that modulation of mitochondrial apoptosis may be a new therapeutic strategy for MPN patients in combination with JAK2 inhibitors, as it acts on both the disease initiating and more mature progenitors, responsible for the clinical findings of myeloproliferation. Apoptose BCL2 Inibidor da JAK2 Inibidor de BCL2 Neoplasias mieloproliferativas Apoptosis BCL2 BCL2 inhibitor JAK2 inhibitor Myeloproliferative neoplasms
3	Immunophenotypic and molecular approaches to the classification of diffuse large B cell lymphoma Barrans, Sharon Louise January 2001 (has links) No description available. 572.8 BCL6; BCL2; P53; FISH
4	Exploring the Molecular Mechanisms by which AID Recombinase Interacts with DNA Secondary Structures involved in Cancer Kalarn, Salil, Kalarn, Salil January 2017 (has links) Genomic complexity in non-Hodgkin’s Diffuse Large B-cell Lymphoma (DLBCL) leads to a treatment failure in ~40% of patients. Activation-Induced Cytosine Deaminase (AID), one of the enzymes involved in generating antibody diversity via class switching recombination (CSR) and somatic hypermutation (SHM) of immunoglobulin (Ig) genes in activated B-cells is one mechanism for the introduction of genomic lesions. In previous studies, AID was shown to preferentially bind to super-enhancer (SE) regions within the genome, but 26% of AID targets were not within the SE regions. The mechanism by which AID interacts with SE elements and its off-target interactions still remains a mystery. Recent evidence suggests that AID may cause genomic lesions in DLBCL via interaction with oncogenes such as MYC and BCL2 resulting in mutations and translocations. Sequences within the MYC promoter contain the four-nucleotide AID target sequence (WRCY) and highly G-rich sequences known to form G-quadruplex DNA secondary structures. We hypothesize that key DNA secondary structures act as recruiting elements for aberrant AID activity at promoters and SEs of key genes involved in the development of DLBCL. Here, we first sought to determine whether known AID DNA targets have the potential to form G-quadruplex DNA secondary structures. The data collected from activated mouse B-cells showed 90% of the AID targets contained sequences that could potentially form G-quadruplexes and the data collected from the human Ramos cell line showed 100% of the sequences had the potential to form G-quadruplexes. To further study our hypothesis we used the techniques circular dichroism (CD) and the electrophoresis motility shift assay (EMSA) to explore the potential interaction between AID and the BCL2 and MYC G-quadruplexes. We observed no significant interactions between AID and these two G-quadruplexes, however further experimentation with different conditions and molecular techniques may show interaction. Additional studies will not only provide key insight into the genomic instability within DLBCL, but will also provide a potential mechanism by which AID is recruited to its DNA targets. AID Recombinase BCL2 G-quadruplex MYC
5	Planejamento e identificação “in silico” de novos candidatos a protótipos de fármacos antitumorais / Design and identification in silico of new anticancer prototypes candidates Silva, Arthur de Carvalho e 04 December 2015 (has links) Submitted by Luciana Ferreira (lucgeral@gmail.com) on 2016-08-25T11:32:45Z No. of bitstreams: 2 Dissertação - Arthur de Carvalho e Silva - 2015.pdf: 4860571 bytes, checksum: 89e248888020f7d914c855c172812411 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Approved for entry into archive by Luciana Ferreira (lucgeral@gmail.com) on 2016-08-25T11:33:41Z (GMT) No. of bitstreams: 2 Dissertação - Arthur de Carvalho e Silva - 2015.pdf: 4860571 bytes, checksum: 89e248888020f7d914c855c172812411 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Made available in DSpace on 2016-08-25T11:33:41Z (GMT). No. of bitstreams: 2 Dissertação - Arthur de Carvalho e Silva - 2015.pdf: 4860571 bytes, checksum: 89e248888020f7d914c855c172812411 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Previous issue date: 2015-12-04 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Cancer is a group of diseases characterized by uncontrolled cell proliferation as a result of epigenetic changes, genetic mutations and accumulated mutations over the time. Tumor cells can invade other tissues in the body in a process called metastasis, significantly worsening the patient's prognosis. In Brazil, for the biennium 2014/2015 are expected 576,000 new cases and around the world, according to WHO, 27 million new cancer cases are expected in 2030 and 17 million deaths from the disease. The antiapoptotic proteins, members of Bcl-2 family proteins, are essential for the survival of tumor cells, even when there are cell death stimuli. In this study were compiled, integrated and prepared the largest publicly available data sets containing biological activity data against the antiapoptotic protein Bcl-xL. Robust and predictive pharmacophore models and QSAR models in line with the OECD recommendations were generated. The pharmacophore models discriminated active and inactive structures with a rate of 0.68-0.92 of success and QSAR models discriminated active and inactive structures at a rate of 0.89-0.93 of success. NCI 2014 dataset was carefully prepared to be submitted to the virtual screening process in which the best pharmacophore model was used as molecular filter. Among the 280 thousand compounds in NCI dataset, 1407 compounds passed to the next stage in which the best consensus QSAR model was used to predict their activity. In the end, the top 50 compounds were selected for purchase and proceed to experimental evaluation as potential candidates for antiapoptotic protein Bcl-xL inhibitors. / Câncer é um grupo de doenças caracterizadas pela proliferação celular descontrolada como resultado de alterações epigenéticas, genéticas e mutações acumuladas ao longo do tempo. Células tumorais podem invadir outros tecidos no organismo em um processo chamado metástase, agravando consideravelmente o prognóstico do paciente. No Brasil, para o biênio de 2014/2015 são esperados 576 mil novos casos e, em todo o mundo, segundo a OMS, são esperados 27 milhões de novos casos de câncer no ano de 2030 e 17 milhões de mortes pela doença. As proteínas antiapoptóticas da família Bcl-2 são fundamentais para a sobrevida das células tumorais, uma vez que as mantém funcionais mesmo frente a estímulos de morte celular. Neste estudo foram compilados, integrados e preparados os maiores conjuntos de dados disponíveis publicamente contendo registros de atividade biológica contra a proteína antiapoptótica Bcl-xL. Modelos farmacofóricos robustos e preditivos bem como modelos de QSAR em consonância com as recomendações da OECD foram gerados. As taxas de acerto dos modelos farmacofóricos discriminaram estruturas ativas de inativas com taxa de 0,68-0,92 de sucesso e os modelos de QSAR discriminaram estruturas ativas e inativas com taxa de 0,89-0,93 de sucesso. A série de dados NCI 2014 foi preparada cuidadosamente para ser submetida ao processo de triagem virtual, no qual foi usado o melhor modelo farmacofórico como filtro molecular. Dentre os 280 mil compostos presentes na série de dados do NCI, 1407 compostos passaram para a etapa seguinte, na qual o melhor modelo consenso de QSAR foi usado para predizer as atividades dos compostos. Ao final, os 50 melhores compostos foram selecionados para serem adquiridos e prosseguirão para avaliação experimental como potenciais candidatos a inibidores da proteína antiapoptótica Bcl-xL. QSAR CADD Planejamento de fármacos Câncer Bcl2 QSAR CADD Drug Design Cancer Bcl2 CIENCIAS BIOLOGICAS::FARMACOLOGIA
6	Développement d’un modèle préclinique de leucémogénèse expérimentale chez la souris humanisée / Construction of a preclinical model of leucemogenesis in humanized mice Dupont, Salomé 12 December 2017 (has links) Les modèles animaux actuellement disponibles pour l’étude des leucémies humaines ne sont pas adaptés pour le développement optimal de nouvelles thérapies ciblées. Au cours de ce projet, qui s’inscrit dans une double perspective fondamentale et industrielle, nous avons cherché à générer un modèle versatile de leucémogénèse humaine chez la souris humanisée BRGS (BALB/c Rag2-/- IL-2Rγc-/- SIRPα.NOD). Les animaux sont greffés avec des progéniteurs hématopoïétiques transduits par des vecteurs lentiviraux surexprimant les oncogènes MYC et BCL2 et placés sous le contrôle d’un promoteur ubiquitaire (EF1α ou SFFV). Le suivi longitudinal des animaux sur une période de 5 mois montre que seule la construction SFFV/Myc-T2A-Bcl2 entraîne la transformation des progéniteurs hématopoïétiques. Entre 12 à 14 semaines post-greffe, >90% des animaux développent des lympho-proliférations de type pro-B (CD19+CD10+CD9+CD20-cytIgM-) infiltrant principalement la rate et la moelle osseuse, et circulant en abondance dans le sang. Le caractère transmissible des tumeurs est validé par des greffes secondaires de tumeurs spléniques. Les cultures in vitro de progéniteurs hématopoïétiques suggèrent que l’émergence des blastes est liée à la réactivation d’un programme B latent dans les précurseurs T, dont le développement est bloqué. Nous avons développé en parallèle un modèle de tumeur autologue. L’ensemble de ces résultats valide le modèle de leucémogénèse humaine développé chez la souris humanisée BRGS et ouvre des perspectives pour la caractérisation fonctionnelle des mécanismes de leucémogénèse, et la validation préclinique de nouvelles stratégies anti-tumorales. / Existing animal models for the study of human leukemia are not accurate for the proper development of innovative, targeted therapies. The aim of this project, which contains both a fundamental and an industrial perspective, therefore was to develop a new, versatile model of human leukemogenesis in the BRGS (BALB/c Rag2-/- IL-2Rγc-/- SIRPα.NOD) humanized mouse. Animals are grafted with hematopoietic progenitors transduced with lentivirals vectors to allow overexpression of MYC and BCL2 proteins under the control of an ubiquitous promotor (EF1α or SFFV). Longitudinal monitoring of the animals over five months shows that only the SFFV/Myc-T2A-Bcl2 construction induces the transformation of humans hematopoietics progenitors. Between 12 and 14 weeks post-transplantation, more than 90% of the animals develop pro-B lympho-proliferations (CD19+CD10+CD9+CD20-cytIgM-), with tumor cells being mainly found in the spleen, the bone marrow and in blood. Tumor transferability is achievable through secondary transplantation in immunodeficient mouse recipients. In vitro culture of bone marrow T cell progenitors suggest that the blasts arise from these cells after reactivation of a latent B cell program with blockade of their T cell development. In parallel, we have also developed an autologous tumor model. Altogether, these results validate the human leukemogenesis model constructed here in humanized BRGS mice and provide attractive prospects regarding the functional characterization of leukemogenesis and a preclinical validation of new anti-tumor strategies. Souris humanisée Myc et Bcl2 Immunothérapie Leucémie Humanized mice Myc and Bcl2 Immunotherapy Leukemia
7	Investigating Selected Mechanisms of Modulation of BECN1-mediated Autophagy Li, Yue January 2019 (has links) Autophagy is a lysosomal degradation pathway wherein cytoplasmic components not needed by or harmful to the cell are degraded and recycled. BECN homologs are key autophagy proteins consisting of an intrinsically disordered region (IDR), flexible helical domain (FHD), coiled-coil domain (CCD) and β-α repeated, autophagy-specific domain (BARAD). Diverse proteins modulate autophagy by binding BECN1. Understanding the mechanisms by which these proteins regulate BECN1-mediated autophagy is important for developing therapeutics targeting these proteins. Toward this goal, we have developed purification protocols for multi-domain BECN1 fragments to explore the conformational flexibility and interactions. We show that a BECN1 helix transitions between mutually exclusive packing states, wherein it either forms part of the CCD homodimer or packs against the BARAD, but predominantly packs against the BARAD. The same set of residues on this helix contribute to the CCD homodimer or packing with the BARAD, and mutation of these residues abrogates starvation-induced up-regulation of autophagy. Next, we show the equatorial groove of GAPR-1 may be responsible for binding BECN1. The five conserved residues lining the GAPR-1 equatorial groove are essential for the interaction, as mutation of these residues disrupts GAPR-1:BECN1 interaction. We also solved the structure of this pentad mutant, which indicates the changes in the equatorial groove and the improved dimerization of pentad mutant likely abrogates BECN1-binding. We then show that BH3D is not required for BECN1 to up-regulate autophagy, though it is required for binding BCL2 homologs. Therefore, we investigated the interactions between BH3D-containing BECN1 fragments and the BCL2 homolog, M11. BECN1 regions outside the BH3D increase binding to M11 by 5-10 fold. In addition, M11-binding increases flexibility of the nuclear export sequence (NES). Further, homodimerization and thermostability of BECN1 BH3D-FHD-CCD increases upon M11-binding. Lastly, the M11:BH3D-FHD-CCD complex appears to fluctuate between two major types of conformations, which may be mediated by the increased flexibility of BECN1 NES upon binding M11. Lastly, we investigated the interactions between BH3D-containing BECN1 fragments and Bcl-XL. Our results indicate that BECN1 regions outside the BH3D do not affect BECN1 interaction with Bcl-XL. Together, these studies are important for better understanding how proteins down-regulate BECN1-mediate autophagy. / NIH: RO3 NS090939, R15 GM122035, P20 RR015566, and R21 AI078198 (S.S). R15 GM113227, P30 GM103332-01, P41 GM103622, and P41 GM103403.; NSF: MCB-1413525 (S.S.); ND Dept. of Commerce: Award #14-11-J1-73 (S.S.) autophagy BCL2/Bcl-XL/M11 BECN1 flexibility structure
8	Testing BCL2A1 Small Molecule Inhibitors in Fluorescence Polarization Assays Ismail, Jaidaa 04 November 2020 (has links) No description available. Immunology BCL2 BCL2A1 BFL-1 Apoptosis fluorescence polarization drug discovery
9	Régulation du développement et de la fonction des cellules innées lymphoïdes NKp46+ / Regulation of NKp46+ lymphoid cells’ function and development Viant, Charlotte 17 June 2016 (has links) Il existe différents groupes de cellules lymphoïdes innées (ILC) qui ont été caractérisées en fonction des facteurs de transcriptions indispensables à leur différenciation et des cytokines qu’elles sécrètent. Les ILC1, dont font partie les cellules Natural Killer (NK), expriment T-bet et produisent de l’IFN-γ. Les ILC2 sont caractérisées par GATA-3 et sécrètent de l’IL-5 et de l’IL-13. Quant aux ILC3, elles ont été identifiées par leur sécrétion d’IL-17 et d’IL-22 ainsi que par l’expression de RORγt.Mon travail de thèse m’a amené à étudier différents aspects de la biologie des cellules NK et ILC3 : leur tolérance, leur homéostasie et leur plasticité.Les cellules NK jouent un rôle dans l’élimination de cellules cancéreuses et des cellules infectées par des bactéries et des virus. J’ai mis en évidence le rôle de la phosphatase SHP-1 (Src homology region 2 domain-containing phosphatase-1) dans les mécanismes de tolérance et d’activation des cellules NK. J’ai également montré que la protéine anti-apoptotique Bcl2 (B-cell lymphoma 2) est importante pour l’homéostasie des cellules NK. Seules les cellules en cycle cellulaire peuvent compenser l’absence de Bcl2, notamment du fait de l’augmentation de l’expression d’une autre protéine anti-apoptotique, Mcl1 (Myeloid Cell Leukemia 1). Les ILC3 sont des cellules principalement localisées dans l’intestin et qui peuvent être classées en différents groupes en fonction des marqueurs qu’elles expriment. J’ai montré qu’il existe une plasticité entre les différentes populations d’ILC3, et que cette plasticité est régulée par des facteurs environnementaux tel que le TGF-β et le ligand de Notch, DL1. / There are three groups of innate lymphoid cells (ILC), defined notably by the transcriptions factors essential to their differentiation and their cytokines secretion. ILC1, including natural killer (NK) cells, express T-bet and secrete IFN-γ. ILC2 are characterized by GATA3 expression and the production of IL-5 and IL-13. ILC3 secrete IL-17 and IL-22 and express RORγt.My PhD work dealt with different aspects of NK cells and ILC3: their tolerance, homeostasis and plasticity.NK cell are involved in killing tumor cells and bacteria- or virus-infected cells. I found that the phosphatase SHP-1 (Src homology region 2 domain-containing phosphatase-1) has a role in NK cell tolerance and activation.I also showed that the anti-apoptotic Bcl2 protein (B-cell lymphoma 2) is important for NK cell homeostasis. Only cycling NK cells could compensate the Bcl2 deficiency, due to the increase expression of another anti-apoptotic protein, Mcl1 (Myeloid Cell Leukemia 1).ILC3 are mainly located in the gut and are classified in different groups, depending on the markers that they expressed. I showed that there is plasticity between ILC3 populations and that this plasticity is regulated by environmental factors, including TGF-β and the Notch ligand, DL1. Ilc Cellules NK Shp-1 Tolérance Bcl2 Ilc3 Plasticité Ilc NK cell Shp-1 Tolerance Bcl2 Ilc3 Plasticity 571
10	Study of position effect as a mechanism arising from chromosomal translocations in leukaemia Papucci, Chiara January 2015 (has links) The chromosomal translocation of t(14;18)(14q32;18q21) is a characteristic aberration of follicular lymphoma and Diffuse Large B cells lymphoma. By PCR, it was proved that the rearrangement of chromosomes 14 and 18 leads to an overexpression of BCL2, an anti-apoptotic protein, which is one of the factors responsible for the maturation of the diseases. The translocation involves the promoter region of IGH gene and the transcriptional unit of BCL2 gene. Previous studies carried out in Dr Tosi’s lab showed a looping out of the BCL2 gene from its chromosome territory in 15% of the nuclei analysed. This looping out could be possibly responsible for the transcriptional activity of the gene. A further relevant finding concerns the spatial distribution of the genes involved in the translocation in the interphase nuclei. In the Pfeiffer cell line, harbouring the t(14;18) rearrangement, the translocated BCL2 gene was positioned in the cell nuclei according to a bimodal distribution. One could speculate that the distribution in the periphery and in the centre of the nuclei could divide the Pfeiffer cell line in two different subpopulations, consequently from the transcriptional activity. These preliminary data set the ground for more experimental work to test whether genes associated with the nuclear interior were transcriptionally active as opposed to the genes positioned towards the nuclear periphery, transcriptionally inactive. The work here presented focuses on this investigation using RNA-DNA FISH (Fluorescence in situ hybridization). My work enabled the detection of IGH, BCL2 and t(14;18) genes along with their transcripts inside of the nuclei of Pfeiffer cell line. Contrary to what had been hinted by previous work, my results showed multiple nuclear positions of transcriptionally active IGH/BCL2 translocation. The result will need to be further supported by software analysis in order to define its specific nuclear position and to ensure the perfect localization of the genes inside each nucleus. 616.99

Search results