Global ETD Search

261	Etude des acteurs et des interactions entre les voies de recombinaison chez Arabidopsis thaliana / Study of the actors and of the interactions between the recombination pathways of Arabidopsis thaliana Serra, Heïdi 05 September 2014 (has links) La réparation des cassures double brin (CDB) de l'ADN par recombinaison est essentielle au maintien de l'intégrité du génome de tous les être vivants. Ce processus doit cependant être finement régulé puisque la recombinaison peut générer des mutations ou des réarrangements chromosomiques, parfois extrêmement délétères pour la cellule. Les CDB peuvent être réparées par deux mécanismes : la recombinaison non homologue (ou jonction des extrémités d'ADN) ou la recombinaison homologue (impliquant une homologie de séquence entre les molécules recombinantes). Dans les cellules somatiques, les deux voies principales de recombinaison homologue (RH) sont la voie Synthesis Dependent Strand Annealing (SDSA) dépendante de la recombinase RAD51 et la voie Single Strand Annealing (SSA) indépendante de RAD51. Nos résultats ont d'abord mis en évidence un rôle inattendu de XRCC2, RAD51B et RAD51D - trois paralogues de RAD51 - dans la voie SSA. Nous avons confirmé que la fonction de la protéine XRCC2 dans la voie SSA ne dépend pas de RAD51, ce qui démontre que certains paralogues de RAD51 ont acquis des fonctions indépendantes de la recombinase. La différence de sévérité des phénotypes des mutants individuels ainsi que les analyses d'épistasie menées sur le double et le triple mutant suggèrent des fonctions individuelles de ces protéines au cours du SSA. Nous proposons qu'elles facilitent l'étape d'hybridation des deux séquences complémentaires situées de part et d'autre de la cassure, bien que ceci reste à confirmer par des études in vitro. L'étude des fonctions de l'hétérodimère XPF-ERCC1 - un complexe impliqué dans le clivage des extrémités d'ADN non homologues au cours des voies de RH - a révélé un rôle inhibiteur de ce complexe sur la voie SDSA. Cette action est dépendante de son activité endonucléasique et serait liée au clivage des longues extrémités 3' sortantes réalisant l'invasion d'un duplex d'ADN homologue, l'étape initiale de la voie SDSA. Notre étude a de plus confirmé que le rôle du complexe dépend de la longueur des extrémités non homologues chez Arabidopsis, comme chez les mammifères et la levure. Bien que le complexe XPF-ERCC1 soit essentiel au clivage des longues extrémités d'ADN non homologue, il n'est pas requis à l'élimination des courtes extrémités au cours de la RH. / The repair of DNA double-strand breaks (DSB) by recombination is essential for the maintenance of genome integrity of all living organisms. However, recombination must be finely regulated as it can generate mutations or chromosomal rearrangements, sometimes extremely deleterious to the cell. DSB can be repaired by two classes of recombination mechanism: non-homologous recombination (or DNA End Joining) or homologous recombination (implicating DNA sequence homology between the recombining molecules). In somatic cells, the two main pathways of homologous recombination (HR) are RAD51-dependent Synthesis Dependent Strand Annealing (SDSA) and RAD51-independent Single Strand Annealing (SSA). Our results have demonstrated an unexpected role of XRCC2, RAD51B and RAD51D - three RAD51 paralogues – in the SSA pathway. We confirmed that the function of XRCC2 in SSA does not depend upon RAD51, thus demonstrating that some RAD51 paralogues have acquired RAD51 recombinase-independent functions. The different severities of individual mutant phenotypes and epistasis analyses carried out on the double and triple mutants suggest individual functions of these proteins in SSA recombination. We propose that they facilitate hybridization of the two complementary sequences located on both sides of the break, although this remains to be confirmed by in vitro experiments. Study of the roles of XPF-ERCC1 - a complex involved in the cleavage of non-homologous DNA ends during HR - revealed an inhibitory role of this complex on the SDSA pathway. This is dependent on its endonuclease activity and is probably due to the cleavage of long 3' ends performing the homologous DNA duplex invasion, the initial step of the SDSA pathway. Our analyses also confirmed that the role of the complex depends on the length of the nonhomologous ends, as seen in mammals and yeasts. Although XPF-ERCC1 is essential for the cleavage of long nonhomologous DNA ends, it is not required for the elimination of short ends during HR. Réparation de l'ADN Cassure double brin Recombinaison homologue Single Strand Annealing Synthesis Dependent Strand Annealing XRCC2 RAD51B RAD51C XPF-ERCC1 Arabidopsis thaliana DNA repair Double-Strand DNA Breaks Homologous DNA recombination Single Strand Annealing Synthesis Dependent Strand Annealing XRCC2 RAD51B RAD51C XPF-ERCC1
262	Implication des remaniements géniques dans l'inactivation des gènes de prédisposition au cancer du sein / Germline large rearrangements in the inactivation of genes implied in breast cancer predisposition Rouleau, Etienne 07 December 2011 (has links) Parmi les cancers du sein, 5 à 10% serait associé à une prédisposition génétique familiale. La prise en charge des patients prédisposés nécessite une bonne définition des risques de cancer. L’identification de l’altération moléculaire causale dans chacune de ces familles est donc un enjeu essentiel dans la prise en charge médicale. Deux gènes, BRCA1 et BRCA2, sont associés à une prédisposition majeure au cancer du sein et de l’ovaire depuis le milieu des années 1990, expliquant environ 15% des formes héréditaires. L’analyse moléculaire de ces deux gènes est désormais réalisée en routine pour la recherche de variations nucléotidiques et plus récemment de remaniements géniques ce qui a permis d’améliorer le taux de détection de mutations délétères. Cependant, pour près de 85% des familles avec une agrégation familiale ou un âge anormalement jeune de cancer du sein, aucune mutation délétère n’a pu être mise en évidence. Dans ce contexte, mon travail de thèse a eu pour objectif de tester plusieurs hypothèses permettant d’expliquer les risques de cancer du sein observés chez des familles montrant l’absence de mutation des gènes BRCA1 et BRCA2. Nous avons ainsi recherché des mécanismes d’altération rarement explorés pour les gènes BRCA1 et BRCA2, et enfin analysé d’autres gènes candidats dont le gène CDH1 et huit autres gènes impliqués dans la réparation de l’ADN. Nous avons pu mieux caractériser des remaniements sur les gènes BRCA1 et BRCA2. Enfin, nous avons pu évaluer l’impact de variants de signification inconnue et des réarrangements détectés par l’étude de leurs transcrits. Dans un premier temps, nous avons mis en place et validé de nouvelles approches techniques de détection et de caractérisation : la CGH-array dédiée, la qPCR-HRM et le peignage moléculaire. Ces techniques ont ensuite été utilisées pour étudier les remaniements géniques et leur fréquence pour onze gènes candidats à la prédisposition au cancer du sein à partir de 472 familles négatives aux mutations délétères BRCA1 et BRCA2. Parmi ces 11 gènes, nous pouvons conclure que les remaniements géniques détectés concernent principalement les gènes BRCA1 et BRCA2, et à un moindre degré le gène CHEK2. En appliquant ces techniques, nous avons pu décrire de nouveaux événements, deux larges délétions et une duplication intronique, pour les gènes CDH1 et BARD1, ouvrant de nouvelles perspectives sur l’étude des transcrits alternatifs. Nous avons en particulier pu décrire la grande diversité des réarrangements délétères en 5’ du gène BRCA1. L’enjeu est ensuite l’interprétation de ces événements. Notre étude des transcrits a permis de décrire un variant exonique d’épissage entraînant une délétion de l’exon 23 au niveau du transcrit BRCA1. Nous avons aussi validé la pathogénicité d’un réarrangement en phase de l’exon 3 de BRCA2 par une étude quantitative du transcrit et une évaluation de la coségrégation. Au final, moins de 1% de nouveaux remaniements ont été mis en évidence. Ce travail est riche d’enseignement pour les nouvelles investigations à mettre en place pour les familles prédisposées. En dehors de la technique d’identification, il est nécessaire de développer des stratégies de validation basées principalement sur la quantification des effets de ces altérations au niveau de l’ARN et des protéines. Cependant, il manque encore de nombreux chaînons pour expliquer l’héritabilité des cancers du sein. Les études sur les nouveaux gènes candidats et l’avènement des techniques de séquençage pangénome à haut débit, devraient permettre d’avoir une meilleure vision des phénomènes pathobiologiques liés à la prédisposition au cancer du sein. / Five to 10% of breast cancers are linked to a genetic predisposition. The management of patients at risk requires a good definition in the risk of cancer. The identification of causal molecular alterations in each of these families is a key issue in medical care. Two genes, BRCA1 and BRCA2, are related with the greatest susceptibility to breast cancer and ovarian cancer since the mid-1990s, accounting for about 15% of hereditary forms. Molecular analysis of these two genes is now routinely performed for the detection of nucleotide variations and more recently large rearrangements which have improved the detection rate of deleterious mutations. However, for more than 85% of families, no mutation explains familial aggregation or unusual young age of breast cancer onset. In this context, my thesis aimed at testing several hypotheses to explain the risks of breast cancer observed in families without any identified mutations in the BRCA1 and BRCA2 genes. We investigated some mechanisms of genic rearrangements rarely explored for BRCA1 and BRCA2 genes, and finally investigated other candidate genes, especially CDH1 gene and eight other genes involved in double-strand DNA repair. We have better characterized some rearrangements in the BRCA1 and BRCA2 genes. Finally, we applied RNA quantitative approaches to better assess the impact from variants of unknown significance and detected rearrangements. Initially, we developed and validated new technical approaches for detection and characterization such as dedicated CGH-array, qPCR-HRM and molecular combing. Rare large germline rearrangements and their frequency in eleven candidate genes for susceptibility to breast cancer were studied among 472 families negative by routine testing for BRCA1 and BRCA2 genes. Of these 11 genes, we conclude that genic rearrangements are found then mainly in the BRCA1 and BRCA2 genes, and to a lesser extent in the CHEK2 gene. We were able to describe two large intronic deletions and one duplication for the CDH1 and BARD1 genes, opening new perspectives on the regulation of their alternative transcript. In particular, we described the wide diversity of new rearrangements involving the 5' region of the BRCA1 gene. Then, it is necessary to validate and interpret those new events. Our transcript analysis described a new exonic variant causing the splice deletion of exon 23 in BRCA1 gene. We have developed tools to validate an in-frame large rearrangement of BRCA2 exon 3 with some transcript quantitative approaches and disease cosegregation.Finally, less than 1% of new rearrangements have been identified. This work is instructive for further investigations to establish molecular etiology in those families with breast cancer predisposition. Not only by applying new technologies, it is necessary to develop other strategies based primarily on quantifying effects of these alterations on transcription and traduction. However, it still lacks many links to explain the heritability of breast cancer. The combination of new candidate genes studies and the advent of high-throughput sequencing are expected to give a better vision of pathobiological phenomena related to the breast cancer predisposition. Oncogénétique Prédisposition au cancer du sein BRCA1 BRCA2 QPCR-HRM CGH-array dédiée Peignage moléculaire Étude de transcript Gène candidat Oncogenetic Breast cancer predisposition BRCA1 BRCA2 QPCR-HRM Dedicated CGH-array Molecular combing Transcript analysis Candidate gene
263	O transplante de células tronco hematopoéticas alogênico e autogênico na leucemia mielóide aguda em primeira remissão completa: análise de 62 pacientes / The allogeneic and autologous hematopoietic stem cell transplantation in acute myeloid leukemia in first complete remission: analyses of 62 patients Nadjanara Dorna Bueno 03 April 2008 (has links) O transplante de células tronco hematopoéticas alogênico e autogênico na leucemia mielóide aguda em primeira remissão completa: analise de 62 pacientes. Os pacientes foram submetidos a transplante de células tronco hematopoéticas alogênico e autogênico. Ao final do estudo estavam vivos no alogênico 43,3% e no autogênico 62,5%. Consolidação intensiva teve melhor sobrevida no alogênico. Os pacientes com DECH aguda grau II tiveram melhor sobrevida. Dois pacientes com DECH crônica extensa morreram. Óbito por infecção ocorreu com maior freqüência no alogênico seguido de recidiva. No autogênico a recidiva foi a principal causa de óbito. Morte por toxicidade ocorreu em 47% dos pacientes que foram a óbito no alogênico e em 8,3% no autogênico. Na analise múltipla de Cox a consolidação intensiva e DECH crônica, tiveram significância. / The allogeneic and autologous hematopoietic stem cell transplantation in acute myeloid leukemia in first complete remission: analyses of 62 patients. The patients were submitted to allogeneic and autologous hematopoietic stem cell transplantation. The end of the study were kept alive in allogeneic 43,3% and in autologous 65,2%. Patient in allogeneic who were consolidated had better survival. Patients with acute GVHD grade II had better survival. Two patients with chronic GVHD in intense, died. Infection was the most frequent dead cause in allogeneic following relapse. In autologous the relapse was the principal cause of death. Toxicity occurred in 47% of patients who died in allogeneic and 8,3% in autologous. In cox multiple analyses intensive consolidation and chronic GVHD had significance. Doença enxerto-hospedeiro/mortalidade Leucemia mielocítica aguda/mortalidade Toxicidade de drogas/mortalidade Drugs toxicity/mortality Graft vs host disease/mortality Hematopoetic stem cell transplantation Leukemia myelocytic acute/mortality
264	Comparação entre os biomarcadores inflamatórios procalcitonina (PCT), interleucina-6 (IL-6) e proteína-C reativa (PCR) para diagnóstico infeccioso e evolução de febre em pacientes neutropênicos submetidos a transplante de células tron / Comparison between inflammatory biomarkers procaltinonin (PCT), interleukin-6 (IL-6) and C-reactive protein (CRP) for infection diagnosis and fever evolution in neutropenic patients, submitted to hematopoietic stem cell transplantation (HSCT) Karin Schmidt Rodrigues Massaro 25 June 2013 (has links) Introdução: No presente estudo foram avaliados biomarcadores na ocorrência de febre em pacientes neutropênicos após transplante de células tronco hematopoiéticas (TCTH). Objetivo: O objetivo principal foi avaliar os valores séricos de biomarcadores: proteína C reativa (PCR), procalcitonina (PCT) e IL-6 (interleucina-6) que possam identificar precocemente infecção em TCTH. Outro objetivo foi fatores de risco para óbito nessa população. Métodos: Os biomarcadores foram avaliados em um estudo prospectivo que incluiu 296 pacientes neutropênicos, submetidos a TCTH autólogo ou alogênico. Os biomarcadores PCT, PCR e IL-6 foram dosados nos seguintes momentos:dia da neutropenia constatada sem febre, evento febril ou hipotermia (T < 35ºC), 24 h após a febre ou hipotermia, 72 horas após a febre ou hipotermia e febre prolongada ou seja 48 horas após a coleta no momento anterior ou na persistência da febre, cinco dias após a coleta no momento anterior. Os dados clínicos e laboratoriais, foram avaliados até a evolução para alta ou o óbito, em uma planilha Excel® 2003 e foram processados pelos programas SPSS e STATA. Os pacientes foram classificados nos seguintes grupos (I- afebril; II- febre de origem indeterminada FOI e III- febre clinica ou microbiologicamente comprovada) em relação a cada marcador estudado (PCT, PCR e IL-6). Foram feitos cálculos para estabelecer área sob a curva ROC, sensibilidade, especificidade, para avaliação da febre e óbito. Para avaliar o desfecho óbito foi realizada análise multivariada com regressão logística stepwise. Resultados: Dos 296 pacientes, 190 apresentaram febre. Duzentos e dezesseis (73%) foram submetidos a transplantes autólogos e 80 (27,0%) alogênicos. Dos 80 casos de TCTH alogênicos 74 (92,6%) eram aparentados e apenas 6 (7,4%) aparentados. Dos 80 casos alogênicos 69 (86,3%) eram fullmatch e 11(13,7%) mismatch. Em relação aos grupos já citados acima, temos a seguinte distribuição: grupo I: 106 pacientes (35,8%); grupo II: 112 pacientes (37,8%) e grupo III: 78 (26,4%). Os valores de média e mediana da IL-6 no momento afebril no grupo I em relação ao grupo II (p = 0,013), apresentando valor significativamente maiores. Os níveis da PCR no grupo I diferiram de forma significativa dos encontrados no grupo III (p < 0,05). Os grupos diferiram em relação aos níveis de IL-6 e de PCR no momento febril. O grupo II apresentou concentrações de IL-6 e de PCR significativamente menores que o grupo III. Os melhores valores de corte de PCT para os momentos de coleta: febre, 24 horas após a febre, 72 horas de febre, e febre prolongada foram respectivamente: 0,32; 0,47; 0,46 e 0,35?g/L. No momento da febre a sensibilidade foi 52,3 e a especificidade 52,6 para o diagnóstico de infecção. Os melhores valores de corte de PCR para os momentos de febre, 24 horas após, 72 horas após e febre prolongada foram, respectivamente: 79, 120, 108 e 72 mg/L. No momento da febre a sensibilidade foi 55,4 e especificidade foi 55,1. Os melhores valores de corte de IL-6 para os momentos de febre, 24 h após, 72 horas após a febre e febre prolongada foram respectivamente: 34, 32, 16 e 9 pg/mL. A sensibilidade e especificidade no momento da febre foram respectivamente: 59,8 e 59,7. Na análise dos três biomarcadores no grupo de pacientes autólogos, verifica-se que só a IL-6 apresenta valores significativos nos momentos iniciais (afebril, febre e 24 horas após a febre). Os seguintes fatores de risco independentes foram identificados na análise multivariada: doador aparentado, doador não aparentado, infecção por Gram-negativo, DHL >= 390 (UI/L), ureia >= 25 (mg/dL) e PCR >= 120 (mg/L). Conclusões: IL-6 e PCR têm associação com diagnóstico precoce de infecção clinica ou microbiologicamente confirmada em neutropenia febril após TCTH. A associação dos três marcadores não apresentou nenhuma vantagem, e não melhorou a acurácia diagnóstica. A IL-6 foi o único biomarcador significativamente associado de forma precoce com infecção quando avaliado apenas pacientes submetidos a TCTH autólogos As variáveis independentes associadas com óbito foram: transplante alogênico, infecção por Gram-negativos, DHL >= 390UI/L no momento da febre e ureia >= 25 mg/dL no momento da febre e PCR >= 120 (mg/L) / Introduction: In the present study, biomarkers were assessed in the occurrence of fever in neutropenic patients upon hematopoietic stem cell transplantation (HSCT). Objective: The main objective was to assess the serum values of biomarkers: C-reactive protein (CRP), procalcitonin (PCT) and IL-6 (interleukin-6) which can early identify infection in HSCT. Another objective was risk factors for death in that population. Methods: The biomarkers were assessed in a prospective study which comprised 296 neutropenic patients submitted to autologous or allogeneic HSCT. The biomarkers PCT, CRP and IL-6 were dosed at the following moments: day of afebrile neutropenia, febrile event or hypothermia (T < 35ºC), 24 h upon fever or hypothermia, 72 hours upon fever or hypothermia and long-standing fever, that is, 48 hours upon the last sampling or at fever persistence, five days upon the last sampling. The clinical and laboratory data were assessed up to the evolution to discharge or death, in an Excel® 2003 spreadsheet and were processed by the SPSS and STATA software. Patients were classified in the following groups (I- afebrile; II- fever of unknown origin FUO and III- clinically or microbiologically proven fever) in regard to each biomarker studied (PCT, CRP and IL-6). Calculations were made to establish the area under the ROC curve, sensitivity, specificity, for the assessment of the evolution and death. In order to assess the death outcome, a multivariate analysis with stepwise logistic regression was conducted. Results: Out of the 296 patients, 190 had fever. Two hundred and sixteen (73%) were submitted to autologous transplantations and 80 (27.0%) to allogeneic ones. Out of the 80 cases of allogeneic HSCT, 74 (92.6%) were related and only 6 (7.4%) were unrelated. Out of the 80 allogeneic cases, 69 (86.3%) were fullmatch and 11(13.7%) were mismatch. In regard to the groups mentioned above, we have the following distribution: group I: 106 patients (35.8%); group II: 112 patients (37.8%) and group III: 78 patients (26.4%). The mean and median values of IL-6 at fever onset in group I in regard to group II (p = 0.013), presenting significantly higher values. The levels of CRP in group I differed significantly from those found in group III (p < 0.05). The groups differed in regard to the levels of IL-6 and CRP at fever onset. Group II presented IL-6 and CRP concentrations significantly lower than group III. The best cut-off values of PCT for sampling: fever onset, 24 hours upon fever, 72 hours of fever, and long-standing fever were, respectively: 0.32; 0.47; 0.46 and 0.35?g/L. At fever onset, sensitivity was 52.3 and specificity 52.6 for infection diagnosis. The best cut-off values of CRP for fever onset, 24 hours upon fever, 72 hours upon fever and long-standing fever were, respectively: 79, 120, 108 and 72 mg/L. At fever onset, sensitivity was 55.4 and specificity was 55.1. The best cut-off values of IL-6 for fever onset, 24 hours upon fever, 72 hours upon fever and long-standing fever were, respectively: 34, 32, 16 and 9 pg/mL. At fever onset, sensitivity and specificity were, respectively: 59.8 and 59.7. In the analysis of the three biomarkers in the group of autologous patients, it is observed that only IL-6 presents significant values at initial moments (afebrile, fever and 24 hours upon fever). The following independent risk factors were identified in the multivariate analysis: related donor, unrelated donor, Gram-negative infection, DHL >= 390 (UI/L), urea >= 25 (mg/dL) and CRP>=120 (mg/L). Conclusions: IL-6 and CRP are associated to the early diagnosis of clinically or microbiologically confirmed infection in post-HSCT febrile neutropenia. The association of the three biomarkers did not present any advantage, nor did it improve diagnostic accuracy. IL-6 was the only biomarker significantly associated at an early stage with infection when assessed only in patients submitted to autologous HSCT. The independent variables associated with death were: allogeneic transplantation, Gram-negative infection, DHL >= 390UI/L at fever onset and urea >= 25 mg/dL at fever onset and PCR >= 120 (mg/L) Febre Interleucina-6 Marcadores biológicos Neutropenia febril Neutropenia/etiologia Procalcitonina Proteína C-reativa Transplante autólogo Transplante homólogo Biological markers C-reative protein Febrile neutropenia Fever Hematopoietic stem cell transplantation Interleukin-6 Neutropenia/etiology Procalcitonin Transplantation autologus Transplantation homologous
265	Targeting breast cancer with natural forms of vitamin E and simvastatin Gopalan, Archana 13 July 2012 (has links) Breast cancer is the second leading cause of death due to cancer in women. A number of effective therapeutic strategies have been implemented in clinics to cope with the disease yet recurrent disease and toxicity reduce their effectiveness. Hence, there is a need to identify and develop more effective therapies with reduced toxic side effects to improve overall survival rates. This dissertation investigates the mechanisms of action of two natural forms of vitamin E and a cholesterol lowering drug, simvastatin, as a therapeutic strategy in human breast cancer cells. Vitamin E in nature consists of eight distinct forms which are fat soluble small lipids. Until recently, vitamin E was known as a potent antioxidant but emerging work suggests they may be resourceful agents in managing a number of chronic diseases including cancer. Anticancer properties of vitamin E have been identified to be limited to the γ- and δ- forms of both tocopherols and tocotrienols. Gamma-tocopherol ([gamma]T) and gamma-tocotrienol ([gamma]T3) have both already been identified to induce death receptor 5 (DR5) mediated apoptosis in breast cancer cells. Studies here show that similar to [gamma]T3, [gamma]T induced DR5 activation is mediated by c-Jun N-terminal kinase/C/EBP homologous protein (JNK/CHOP) proapoptotic axis which in part contributed to [gamma]T mediated dowregulation of c-FLIP, Bcl-2 and Survivin. Also, both agents activate de novo ceramide synthesis pathway which induces JNK/CHOP/DR5 proapoptotic axis and downregulates antiapoptotic factors FLICE inhibitory protein (c-FLIP), B-cell lymphoma 2 (Bcl-2) and Survivin leading to apoptosis. Simvastatin (SVA) has been identified to display pleiotropic effects including anticancer effects but mechanisms responsible for these actions have yet to be fully understood. In this dissertation, it was observed that simvastatin induced apoptosis in human breast cancer cells via activation of JNK/CHOP/DR5 proapoptotic axis and down regulation of antiapoptotic factors c-FLIP and Survivin which are in part dependent on JNK/CHOP/DR5 axis. The anticancer effects mediated by simvastatin can be reversed by exogenously added mevalonate and geranylgeranyl pyrophosphate (GGPP), implicating the blockage of mevalonate as a key event. Furthermore, work has been done to understand the factors responsible for drug resistance and identify therapeutic strategies to counteract the same. It was observed that development of drug resistance was associated with an increase in the percentage of tumor initiating cells (TICs) in both tamoxifen and Adriamycin resistant cells compared to their parental counterparts which was accompanied by an increase in phosphorylated form of Signal transducer and activator of transcription 3 (Stat3) proteins as well as its downstream mediators c-Myc, cyclin D1, Bcl-xL and Survivin. Inhibition of Stat3 demonstrated that Stat3 and its downstream mediators play an important role in regulation of TICs in drug resistant breast cancer. Moreover, SVA, [gamma]T3 and combination of SVA+[gamma]T3 has been observed to target TICs in drug resistant human breast cancer cells and downregulate Stat3 as well as its downstream mediators making it an attractive agent to overcome drug resistance. From the data presented here, the mechanisms responsible for the anticancer actions of [gamma]T, [gamma]T3 and SVA have been better understood, providing the necessary rationale to test these agents by themselves or in combination in pre-clinical models. / text Breast cancer Vitamin E Simvastatin Apoptosis Stem cells TIC Mevalonate pathway Ceramide synthesis pathways Death receptor 5 (DR5) FLICE inhibitory protein (c-FLIP) B-cell lymphoma 2 (Bcl-2) Survivin Bcl-xL Cyclin D1 c-Myc
266	Étude du rôle de la phosphorylation du complexe Mre11-Rad50-Xrs2 dans le maintien de l'intégrité génomique Simoneau, Antoine 11 1900 (has links) L'ADN de chaque cellule est constamment soumis à des stress pouvant compromettre son intégrité. Les bris double-brins sont probablement les dommages les plus nocifs pour la cellule et peuvent être des sources de réarrangements chromosomiques majeurs et mener au cancer s’ils sont mal réparés. La recombinaison homologue et la jonction d’extrémités non-homologues (JENH) sont deux voies fondamentalement différentes utilisées pour réparer ce type de dommage. Or, les mécanismes régulant le choix entre ces deux voies pour la réparation des bris double-brins demeurent nébuleux. Le complexe Mre11-Rad50-Xrs2 (MRX) est le premier acteur à être recruté à ce type de bris où il contribue à la réparation par recombinaison homologue ou JENH. À l’intersection de ces deux voies, il est donc idéalement placé pour orienter le choix de réparation. Ce mémoire met en lumière deux systèmes distincts de phosphorylation du complexe MRX régulant spécifiquement le JENH. L’un dépend de la progression du cycle cellulaire et inhibe le JENH, tandis que l’autre requiert la présence de dommages à l’ADN et est nécessaire au JENH. Ensembles, nos résultats suggèrent que le complexe MRX intègre différents phospho-stimuli pour réguler le choix de la voie de réparation. / The genome of every cell is constantly subjected to stresses that could compromise its integrity. DNA double-strand breaks (DSB) are amongst the most damaging events for a cell and can lead to gross chromosomal rearrangements, cell death and cancer if improperly repaired. Homologous recombination and non-homologous end joining (NHEJ) are the main repair pathways responsible for the repair of DSBs. However, the mechanistic basis of both pathways is fundamentally different and the regulation of the choice between both for the repair of DSBs remains largely misunderstood. The Mre11-Rad50-Xrs2 (MRX) complex acts as a DSB first responder and contributes to repair by both homologous recombination and NHEJ. Being at the crossroads of both DSB repair pathways, the MRX complex is therefore in a convenient position to influence the repair choice. This thesis unravels two distinct phosphorylation systems modifying the MRX complex and specifically regulating repair by NHEJ. The first relies on cell cycle progression and inhibits NHEJ, while the second requires the presence of DNA damage and is necessary for efficient NHEJ. Together, our results suggest a model in which the MRX complex would act as an integrator of phospho-stimuli in order to regulate the DSB repair pathway choice. Complexe Mre11-Rad50-Xrs2 bris double-brins réponse aux dommages à l'ADN recombinaison homologue JENH syndrome de Nimègue Tel1/ATM résection CDK Mre11-Rad50-Xrs2 complex double-strand break cell cycle DNA damage response DNA damage checkpoints homologous recombination NHEJ Nijmegen breakage sundrome Tel1/ATM CDK
267	CD40-CD154 Blockade Facilitates Induction of Allogeneic Hematopoietic Chimerism and Transplantation Tolerance: A Dissertation Seung, Edward 14 May 2003 (has links) Allogeneic hematopoietic chimerism leading to central tolerance has significant therapeutic potential. Establishment of hematopoietic chimerism created by stem cell transplantation has been shown to prevent and cure a number of autoimmune diseases and induce the most robust and long-lasting form of transplantation tolerance known. However, the realization of the vast clinical potential of hematopoietic chimerism for induction of transplantation tolerance has been impeded by the toxicity of the host conditioning regimen and the development of graft-versus-host disease (GVHD). This thesis describes the development of stem cell transplantation protocols that 1) reduce the host conditioning regimen; and 2) abrogate the development of GVHD. When applied to the treatment of autoimmune diabetic NOD mice, a model of type 1 diabetes, stem cell transplantation was able to 3) prevent autoimmune recurrence; and 4) permit curative pancreatic islet transplantation. I first describe a tolerance-based stem cell transplantation protocol that combines sub-lethal irradiation with transient blockade of the CD40-CD154 costimulatory pathway using an anti-CD154 antibody. With this protocol, I established hematopoietic chimerism in BALB/c mice transplanted with fully allogeneic C57BL/6 bone marrow. All chimeric mice treated with anti-CD154 antibody remained free of graft vs.host disease (GVHD) and accepted donor-origin but not third party skin allografts. It was similarly possible to create allogeneic hematopoietic chimerism in NOD/Lt mice with spontaneous autoimmune diabetes. Pancreatic islet allografts transplanted into chimeric NOD/Lt mice were resistant not only to allorejection but also to recurrence of autoimmunity. I conclude that it is possible to establish robust allogeneic hematopoietic chimerism in sub-lethally irradiated mice without subsequent GVHD by blocking the CD40-CD154 costimulatory pathway using as few as two injections of anti-CD154 antibody. I also conclude that chimerism created in this way generates donor-specific allograft tolerance and reverses the predisposition to recurrent autoimmune diabetes in NOD/Lt mice, enabling them to accept curative islet allografts. In order to further reduce the impediments associated with the implementation of allogeneic hematopoietic chimerism as a therapeutic modality, I adapted a costimulation blockade-based protocol developed for solid organ transplantation for use in stem cell transplantation. The protocol combines a donor-specific transfusion (DST) with anti-CD154 antibody to induce peripheral transplantation tolerance. When applied to stem cell transplantation, administration of DST, anti-CD154 antibody, and allogeneic bone marrow led to hematopoietic chimerism and central tolerance with no myeloablation (i.e. no radiation) and no GVHD in 3 different strains of mice. The development of donor-specific tolerance in this system was shown to involve deletion of both peripheral host alloreactive CD8+ T cells and nascent intrathymic alloreactive CD8+ T cells. In the absence of large numbers of host alloreactive CD8+ T cells, the cell transfusion that precedes transplantation need not be of donor-origin, suggesting that both allo-specific and non-allo-specific mechanisms regulate engraftment. Agents that interfere with peripheral transplantation tolerance partially impair establishment of chimerism. I conclude that robust allogeneic hematopoietic chimerism and central tolerance can be established in the absence of host myeloablative conditioning using a peripheral transplantation tolerance protocol. Hematopoietic Stem Cell Transplantation Transplantation Immunology Transplantation Homologous Transplantation Tolerance Transplantation Chimera Radiation Chimera Transplantation Conditioning Graft vs Host Disease Amino Acids, Peptides, and Proteins Animal Experimentation and Research Endocrine System Diseases Immune System Diseases Immunology and Infectious Disease Nutritional and Metabolic Diseases Surgical Procedures, Operative Therapeutics
268	Avaliação da reconstituição da função tímica e a caracterização das subpopulações de linfócitos T e do perfil de citocinas em pacientes submetidos ao transplante alogênico de células-tronco hematopoiéticas que desenvolveram doença do enxerto-contra-hospedeiro / Evaluation of thymic function recovery and characterization of T lymphocyte subpopulations and cytokines profile in patients underwent to allogeneic hematopoietic stem cell transplantation that developed graft-versus-host disease Luís Klaus Alves da Rocha 28 June 2018 (has links) O transplante de células-tronco hematopoiéticas tem sido a melhor opção terapêutica para muitas doenças. Seu sucesso, no entanto, depende de alguns fatores que influenciam a taxa de mortalidade. A doença do enxerto-contra-hospedeiro é uma causa de mortalidade. Apresenta duas formas, a aguda e a crônica, e ambas têm linfócitos T na patofisiologia. Outra causa são as infecções, cujos patógenos variam conforme o tempo de recuperação do sistema imune. O presente estudo avaliou a recuperação linfoide T com base no timo e distinção das subpopulações e citocinas nos pacientes que desenvolveram doença do enxerto-contra-hospedeiro crônica no primeiro ano de transplante. Os pacientes foram alocados no Hospital de Transplante Amaral Carvalho (Jaú/SP) e tinham entre 18 e 60 anos de idade. No pré-transplante, foram comparados com indivíduos saudáveis, pareados em idade. Após o transplante, todos os pacientes foram acompanhados por um ano e seis meses, para observação de possíveis eventos de doença do enxerto-contra-hospedeiro e/ou infecções. A análise laboratorial foi feita com o sangue do paciente, sendo a primeira antes do transplante, seguidas por mais quatro, com intervalos de três meses. Tais avaliações laboratoriais tinham por objetivos caracterizar a função tímica por quantificação de sjTREC; as subpopulações de linfócitos T, por citometria de fluxo e a análise de citocinas, por Luminex. Foram estudados 172 indivíduos, sendo 75 do transplante alogênico, 43 do transplante autólogo, além de 54 pessoas saudáveis. Nossos resultados mostraram que os pacientes apresentaram função tímica diminuída antes mesmo da realização do transplante. A função tímica enfraquecida foi um fator de risco para doença do enxerto-contrahospedeiro crônica e a recuperação do sistema imune foi melhor nos pacientes que não apresentaram doença do enxerto-contra-hospedeiro crônica após um ano do transplante. No entanto, a função tímica não foi diferente entre os pacientes que faleceram e os que estão vivos. No geral, não houve distinção quanto à apresentação das subpopulações de linfócitos T e à produção de citocinas entre os pacientes submetidos ao transplante alogênico que desenvolveram doença do enxerto-contra-hospedeiro crônica, relativamente aos demais pacientes. Com o tempo, foi observada a recuperação gradual do compartimento linfoide T e diminuição na incidência de infecções. A taxa de infecções não influenciou a apresentação das subpopulações de linfócitos T e a produção de citocinas nos pacientes que desenvolveram doença do enxerto-contrahospedeiro crônica em relação aos demais pacientes. Como conclusão, a função tímica apresentou-se deteriorada antes da realização do transplante, porém não foi determinante para que houvesse piora na evolução clínica após o transplante. Os pacientes que desenvolveram doença do enxerto-contra-hospedeiro crônica, independentemente da incidência de infecções, apresentaram semelhança no perfil das subpopulações de linfócitos T e das citocinas, quando comparados aos demais / Hematopoietic stem cell transplantation has been the best therapeutic option for many diseases. Its success depends on some factors that influence the mortality rate. Graftversus- host disease is one cause of mortality. It has two forms, acute and chronic, and both have T lymphocytes in their pathophysiology. Other causes are infections, whose pathogens vary according to immune system recovery time. The present study evaluated the lymphoid T recuperation through the thymus and the differentiation of subpopulations and cytokines in patients who developed chronic graft-versus-host disease at the first year of transplantation. The patients were allocated at Hospital de Transplantes Amaral Carvalho (Jaú/SP). They were between 18 and 60 years old. At pre-transplant phase, patients were compared to healthy individuals, age-matched. After transplantation, they were all assisted for one year and six months, so that graft-versushost disease\'s and infections\' events could be observed. The laboratory analysis was done by blood sample; the first occurred before the transplant, followed by four more, every three months. Laboratory examinations were performed to characterize thymic function by quantification of sjTREC; T lymphocyte subpopulations, by flow cytometry, and cytokine analysis, by Luminex. A total of 172 individuals were studied: 75 allogeneic transplant patients, 43 autologous transplant patients and 54 healthy persons. Our results showed that patients presented thymic function impaired even before the transplant. The weakening of the thymic function was a risk factor for chronic graft-versus-host disease and immune system recovery was better in patients who did not develop chronic graft-versus-host disease after one year of transplantation. However, the thymic function was not different between patients who died and those who remained alive. In general, there was no distinction of the presentation of T lymphocyte subpopulations and cytokines production among patients who underwent allogeneic transplant and developed chronic graft-versus-host disease, in comparison to the other patients. Over time, a gradual recovery of the T lymphoid compartment and a decrease in the infections incidence were observed. The infection rate did not influence the presentation of the T lymphocyte subpopulations and the production of cytokines in patients who developed chronic graft-versus-host disease in comparison to the other patients. In conclusion, the thymic function was impaired before transplantation, but it was not relevant for clinical evolution worsening after transplantation. Patients who developed chronic graft-versus-host disease, regardless of the incidence of infections, showed similar profile of T lymphocytes subpopulations and cytokines, relatively to other patients Antígenos HLA Citocinas Doença enxerto-hospedeiro Doenças hematológicas Linfócitos T Sistema imunológico Timo Transplante autólogo Transplante homólogo Cytokines Graft vs host diseases Hematologic diseases Hematopoietic stem cell transplantation HLA antigens Immune system T-lymphocytes Thymus gland Transplantation autologous Transplantation homologous
269	Structure, Stability and Evolution of Multi-Domain Proteins Bhaskara, Ramachandra M January 2013 (has links) (PDF) Analyses of protein sequences from diverse genomes have revealed the ubiquitous nature of multi-domain proteins. They form up to 70% of proteomes of most eukaryotic organisms. Yet, our understanding of protein structure, folding and evolution has been dominated by extensive studies on single-domain proteins. We provide quantitative treatment and proof for prevailing intuitive ideas on the strategies employed by nature to stabilize otherwise unstable domains. We find that domains incapable of independent stability are stabilized by favourable interactions with tethered domains in the multi-domain context. Natural variations (nsSNPs) at these sites alter communication between domains and affect stability leading to disease manifestation. We emphasize this by using explicit all-atom molecular dynamics simulations to study the interface nsSNPs of human Glutathione S-transferase omega 1. We show that domain-domain interface interactions constrain inter-domain geometry (IDG) which is evolutionarily well conserved. The inter-domain linkers modulate the interactions by varying their lengths, conformations and local structure, thereby affecting the overall IDG. These findings led to the development of a method to predict interfacial residues in multi-domain proteins based on difference evolutionary information extracted from at least two diverse domain architectures (single and multi-domain). Our predictions are highly accurate (∼85%) and specific (∼95%). Using predicted residues to constrain domain–domain interaction, rigid-body docking was able to provide us with accurate full-length protein structures with correct orientation of domains. Further, we developed and employed an alignment-free approach based on local amino-acid fragment matching to compare sequences of multi-domain proteins. This is especially effective in the absence of proper alignments, which is usually the case for multi-domain proteins. Using this, we were able to recreate the existing Hanks and Hunter classification scheme for protein kinases. We also showed functional relationships among Immunoglobulin sequences. The clusters obtained were functionally distinct and also showed unique domain-architectures. Our analysis provides guidelines toward rational protein and interaction design which have attractive applications in obtaining stable fragments and domain constructs essential for structural studies by crystallography and NMR. These studies enable a deeper understanding of rapport of protein domains in the multi-domain context. Protein Sequence Protein Structure Multi-Domain Proteins GSTO-1 Full-length Proteins Multi-Domain Proteins - Evolution Multi-Domain Proteins - Folding Human Glutathione S-Transferase Omega-1 Multi-Domain Proteins - 3D Modelling Protein Folding Proteins - Stability Amino Acid Sequence Single Nucleotide Polymophisms (SNPs) Homologous Protein Structures Biochemistry
270	Role of Histone H3 Lysine 56 Acetylation in the Response to Replicative stress Nersesian, Jeanet 01 1900 (has links) Chez la levure Saccharomyces cerevisiae, l’acétylation de l’histone H3 sur la Lysine 56 (H3K56ac) a lieu sur toutes les histones H3 nouvellement synthétisées qui sont déposées derrière les fourches de réplication. L’acétylation de H3K56 joue un rôle primordial dans l’assemblage de l’ADN lors la réplication et la réparation. L’acétylation de H3K56 joue également un rôle important dans la stabilité génomique et la stabilisation des fourches de réplication bloquée. En effet, les cellules dépourvues de H3K56ac sont sensibles au méthane sulfonate de méthyle (MMS) et à d’autres agents génotoxiques qui causent du stress réplicatif. Notre projet visait à investiguer les liens entre la protéine du réplisome Ctf4 et l’acétyltransférase d’histone Rtt109. Dans un premier lieu, la délétion de CTF4 a partiellement contré la sensibilité des cellules rtt109Δ au MMS. Notre analyse génétique a aussi montré que Ctf4, Rtt109, et le complexe Rtt101-Mms1-Mms22 agissent dans la même voie de réponse face à un stress réplicative. Nos résultats montrent que les cellules ctf4Δ et rtt109Δ présentent des foyers intenses du complexe de liaison à l'ADN simple-brin RPA en réponse au stress réplicatif, suggérant la formation excessive de régions d'ADN simple-brin aux fourches de réplication bloquées, ce qui conduit à une hyper activation des points de contrôle des dommages à l'ADN. Ces mutants présentent des ponts anaphase et des foyers persistants des protéines de recombinaison homologues Rad51 et Rad52 en réponse aux génotoxines, suggérant ainsi que la structure anormale des réplisomes bloqués peut compromettre leur récupération. Nos résultats indiquent également que la délétion des gènes de la RH (RAD51, RAD52, RAD54, RAD55 et MUS81) avec ctf4Δ et rtt109Δ respectivement, engendre une sensibilité synergique au MMS, suggérant que les cellules qui sont déficientes en H3K56 acétylation utilisent la RH pour réparer les dommages causés suite à un stress réplicatif. En conclusion, nos résultats suggèrent que les cellules déficientes en H3K56ac présentent des défauts de RH en réponse aux dommages à l’ADN induits par le MMS durant la phase S. / In Saccharomyces cerevisiae, histone H3 lysine 56 acetylation (H3K56ac) occurs on all newly synthesized histones H3 that are deposited behind DNA replication forks. H3K56ac plays critical role in chromatin assembly during DNA replication and repair. H3K56ac is also required for genome stability and stabilization of stalled replication fork. Cells lacking H3K56ac are sensitive to methyl methane sulfonate and other drugs that cause replicative stress. In this thesis, we investigated the links between the replisome protein Ctf4 and the H3K56 acetyltransferase Rtt109. Deletion of CTF4 partially rescued the sensitivity of rtt109Δ cells to methyl methane sulfonate. Genetic analyses also showed that Ctf4, Rtt109, and the Rtt101-Mms1-Mms22 complex act in the same pathway to response to replicative stress. ctf4Δ and rtt109Δ cells displayed intense foci of the single-stranded DNA binding complex RPA during replicative stress, suggesting formation of excess single-stranded DNA regions at stalled replication forks, leading to hyper activation of DNA damage checkpoints. These mutants accumulated anaphase bridges and persistent foci of the homologous recombination proteins Rad51 and Rad52 in response to genotoxins, suggesting that abnormal DNA structure formed at stalled replisome may compromise their recovery. Deletion of HR genes (RAD51, RAD52, RAD54, RAD55 and MUS81) together with ctf4Δ and rtt109Δ presents synergistic sensitivity to MMS, suggesting that H3K56ac deficient cells use HR to repair the damages caused by replicative stress. Overall our results demonstrate that H3K56ac deficient cells cannot recover MMS- induced damages because HR is compromised in these mutants. Ctf4 Rtt109 MMS Histone H3 Lysine 56 acetylation Chromatin structure Post-translational histone modifications DNA replication DNA damage response pathway Homologous recombination Structure de la Chromatine Réplication de l'ADN Voie de réponse aux dommages à l’ADN Recombinaison homologue

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