Global ETD Search

1	RelB acts as a molecular switch to drive chronic inflammation in glioblastoma multiforme (GBM). Waters, Michael R 01 January 2017 (has links) Inflammation is a homeostatic response to tissue injury or infection, which is normally short- lived and quickly resolves to limit tissue damage. In contrast, chronic inflammation has been linked to a variety of human diseases, including cancers such as glioblastoma multiforme (GBM). GBMs are very aggressive tumors with very low patient survival rates, which have not improved in several decades. GBM tumors are characterized by necrosis and profound inflammation; with cytokines secreted by both GBM cells and the tumor microenvironment. The mechanisms by which chronic inflammation develops and persists in GBM regardless of multiple anti-inflammatory feedback loops remain elusive. This project identifies a molecular switch which promotes chronic inflammation in GBM, but not primary human astrocytes. RelB SIRT1 YY1 Glioblastoma IL-1 OSM Molecular Biology
2	The Fanconi Anemia (FA)/BRCA DNA Damage Repair Pathway is Regulated by NF-κB and Mediates Drug Resistance in Multiple Myeloma Yarde, Danielle N 24 February 2010 (has links) The Fanconi Anemia (FA)/BRCA DNA damage repair pathway plays a critical role in the cellular response to stress induced by DNA alkylating agents and greatly influences drug response in cancer treatment. We recently reported that FA/BRCA DNA damage repair pathway genes are overexpressed and causative for resistance in multiple myeloma (MM) cell lines selected for resistance to melphalan. We hypothesized that the FA/BRCA DNA damage repair pathway mediates response and resistance to chemotherapeutic agents used to treat multiple myeloma and other cancers, and targeting this pathway is vital to overcoming drug resistance. In this dissertation, we show that FA/BRCA pathway genes are collectively overexpressed in MM, prostate, and ovarian cancer cell lines selected for resistance to melphalan and cisplatin, respectively. Interestingly, cells selected for resistance to topoisomerase II inhibitors selectively overexpress only FANCF. We also show that FA/BRCA pathway expression can be inhibited by the proteasome inhibitor bortezomib. FA/BRCA pathway mRNA expression was inhibited by bortezomib in myeloma cell lines and patient samples. FANCD2 gene and protein expression are downregulated by bortezomib, and remain attenuated in the face of melphalan treatment. Melphalan-induced FANCD2 foci formation was also inhibited by bortezomib, and this drug enhanced melphalan-induced DNA damage, likely via inhibition of FA-mediated DNA damage repair. Next, we analyzed regulation of the FA/BRCA pathway. We demonstrate that NF-kappaB, specifically the Re1B/p50 subunits, transcriptionally regulates members of the FA/BRCA pathway, and inhibition of these subunits by siRNA, BMS-345541, and bortezomib reduces FA/BRCA pathway expression. Furthermore, knocking down Re1B and p50 simultaneously attenuates FANCD2 protein expression and results in diminished DNA repair and enhanced sensitivity to melphalan. Importantly, melphalan resistance was restored when FANCD2 was re-expressed in these cells. We also show that bortezomib regulates FANCD2 protein expression directly, by inhibiting FANCD2 synthesis. Finally, we demonstrate that low-dose bortezomib arrests cells in G0/G1 and also overcomes the S-phase arrest induced by melphalan, likely via inhibition of ATR. Overall, our findings provide evidence for targeting the FA/BRCA pathway, either directly or indirectly, via inhibition of NF-kappaB or ATR, to enhance chemotherapeutic response and reverse drug resistance in multiple myeloma and other cancers. Hematologic malignancies RelB p50 melphalan bortezomib American Studies Arts and Humanities
3	Implication de la voie alternative NF-kappa B dans le cancer de la prostate Labouba, Ingrid 08 1900 (has links) Le cancer de la prostate (CaP) est le plus diagnostiqué chez les hommes au Canada et représente le troisième cancer le plus meurtrier au sein de cette population. Malgré l’efficacité des traitements de première ligne, de nombreux patients finiront par développer une résistance et, le cas échéant, verront leur CaP progresser vers une forme plus agressive. Plusieurs paramètres, essentiellement cliniques, permettent de prédire la progression du CaP mais leur sensibilité, encore limitée, implique la nécessité de nouveaux biomarqueurs afin de combler cette lacune. Dans cette optique nous nous intéressons au facteur de transcription NF-κB. Des études réalisées au laboratoire et ailleurs, associent RelA(p65) à un potentiel clinique dans le CaP, soulignant ainsi l’importance de la voie classique NF-κB. L’implication de la voie alternative NF-κB dans la progression du CaP a aussi été suggérée dans une de nos études illustrant la corrélation entre la distribution nucléaire de RelB et le score de Gleason. Alors que la voie classique est largement documentée et son implication dans la progression du CaP établie, la voie alternative, elle, reste à explorer. La présente thèse vise à clarifier l’implication de la voie alternative NF-κB dans le CaP et répond à deux objectifs fixés dans ce but. Le premier objectif fut d’évaluer l’impact de l'activation de la voie alternative NF-κB sur la biologie des cellules cancéreuses prostatiques. L’étude de la surexpression de RelB a souligné les effets de la voie alternative NF-κB sur la prolifération et l'autophagie. Étant ainsi impliquée tant dans la croissance tumorale que dans un processus de plus en plus associée à la progression tumorale, quoique potentiellement létal pour les cellules cancéreuses, son impact sur la tumorigénèse du CaP reste encore difficile à définir. Il n'existe, à ce jour, aucune étude permettant de comparer le potentiel clinique des voies classique et alternative NF-κB. Le second objectif de ce projet fut donc l'analyse conjointe de RelA(p65) et RelB au sein de mêmes tissus de patients atteints de CaP afin de déterminer l'importance clinique des deux signalisations NF-κB, l'une par rapport à l'autre. Le marquage immunofluorescent de RelA(p65) et RelB en a permis l'analyse quantitative et objective par un logiciel d'imagerie. Nos travaux ont confirmé le potentiel clinique associé à RelA(p65). La variable RelA(p65)/RelB s’est, elle, avérée moins informative que RelA(p65). Par contre, aucune corrélation entre RelB et les paramètres cliniques inclus dans l'étude n’est ressortie. En définitive, mon projet de thèse aura permis de préciser l'implication de la voie alternative NF-κB sur la biologie du CaP. Son impact sur la croissance des cellules cancéreuses prostatiques ainsi que sur l'autophagie, dénote l’ambivalence de la voie alternative NF-κB face à la tumorigénèse du CaP. L’étude exhaustive de la signalisation NF-κB souligne davantage l'importance de la voie classique dont l’intérêt clinique est principalement associé au statut de RelA(p65). Ainsi, bien que RelB n’affiche aucun potentiel en tant que biomarqueur exploitable en clinique, l’analyse de l’intervention de la voie alternative NF-κB sur la biologie des cellules cancéreuses prostatiques reste d’intérêt pour la compréhension de son rôle exact dans la progression du CaP. / Prostate cancer (PCa) is the most frequently diagnosed cancer and represents the third cause of cancer-death in Canadian men. Despite effective first-line therapies, many patients experience disease recurrence where PCa progresses toward a more aggressive form. Several parameters, largely clinical, have been used to predict the progression of PCa but their accuracy is still limited and implies the need for new biomarkers to fill this gap. Previous research from the laboratory has demonstrated that the transcription factor NF-B, and its nuclear localization, could be such a prognostic biomarker. Studies in our laboratory and elsewhere have correlated RelA(p65) with a clinical progression in PCa, underlining the importance of the classical NF-B pathway. The involvement of the alternative NF-B pathway in the progression of PCa was also suggested in one of our studies showing the correlation between the nuclear distribution of RelB and Gleason score. While the classical pathway is well documented and its involvement in the PCa progression established, the alternative NF-B pathway remains largely unexplored. This thesis describes two research objectives that aims to clarify the involvement of the alternative NF-B pathway in PCa. The first objective assessed the impact of the alternative NF-B pathway activation on the biology of PCa cells. RelB overexpression in 22RV1 PCa cells highlighted an effect of the alternative NF-B pathway on cell proliferation and autophagy. Its dual role in cell growth and a form of cell death requires further study to understand the balance of these in PCa tumorigenesis. To date no study has addressed the comparative prognostic potential of both the classical and alternative NF-B pathways simultaneously. Therefore the second objective of this research project was to analyze both RelA(p65) and RelB at a cellular level in the same tissue of patients with PCa to determine their unique and combined contribution to predicting biochemical recurrence in patients. This analysis was possible through immunofluorescent labeling of RelA (p65) and RelB, and was followed by a quantitative and objective analysis using an appropriate software. Our work confirmed the predictive value of RelA(p65) for biochemical recurrance. Combining RelA(p65) with RelB weakened the association, and RelB on its own was not found to predict biochemical recurrance. Ultimately, the research presented here has clarified the involvement of the alternative NF-B pathway on the biology of PCa. Its impact on the growth of PCa cells as well as autophagy reveals the dual role of the alternative NF-B pathway in PCa tumorigenesis. This exhaustive study of NF-B in PCa tissues further underscores the importance of the classical pathway whose clinical interest is mainly associated with RelA(p65) status. Thus, although RelB shows no potential as a clinically exploitable biomarker, further studies are needed to determine whether RelB contributes, either positively or negatively, and in a temporal fashion, to PCa progression. cancer de la prostate NF-kappaB RelB RelA(p65) autophagie immunofluorescence prostate cancer autophagy immunofluorescence
4	Implication de la voie alternative NF-kappa B dans le cancer de la prostate Labouba, Ingrid 08 1900 (has links) Le cancer de la prostate (CaP) est le plus diagnostiqué chez les hommes au Canada et représente le troisième cancer le plus meurtrier au sein de cette population. Malgré l’efficacité des traitements de première ligne, de nombreux patients finiront par développer une résistance et, le cas échéant, verront leur CaP progresser vers une forme plus agressive. Plusieurs paramètres, essentiellement cliniques, permettent de prédire la progression du CaP mais leur sensibilité, encore limitée, implique la nécessité de nouveaux biomarqueurs afin de combler cette lacune. Dans cette optique nous nous intéressons au facteur de transcription NF-κB. Des études réalisées au laboratoire et ailleurs, associent RelA(p65) à un potentiel clinique dans le CaP, soulignant ainsi l’importance de la voie classique NF-κB. L’implication de la voie alternative NF-κB dans la progression du CaP a aussi été suggérée dans une de nos études illustrant la corrélation entre la distribution nucléaire de RelB et le score de Gleason. Alors que la voie classique est largement documentée et son implication dans la progression du CaP établie, la voie alternative, elle, reste à explorer. La présente thèse vise à clarifier l’implication de la voie alternative NF-κB dans le CaP et répond à deux objectifs fixés dans ce but. Le premier objectif fut d’évaluer l’impact de l'activation de la voie alternative NF-κB sur la biologie des cellules cancéreuses prostatiques. L’étude de la surexpression de RelB a souligné les effets de la voie alternative NF-κB sur la prolifération et l'autophagie. Étant ainsi impliquée tant dans la croissance tumorale que dans un processus de plus en plus associée à la progression tumorale, quoique potentiellement létal pour les cellules cancéreuses, son impact sur la tumorigénèse du CaP reste encore difficile à définir. Il n'existe, à ce jour, aucune étude permettant de comparer le potentiel clinique des voies classique et alternative NF-κB. Le second objectif de ce projet fut donc l'analyse conjointe de RelA(p65) et RelB au sein de mêmes tissus de patients atteints de CaP afin de déterminer l'importance clinique des deux signalisations NF-κB, l'une par rapport à l'autre. Le marquage immunofluorescent de RelA(p65) et RelB en a permis l'analyse quantitative et objective par un logiciel d'imagerie. Nos travaux ont confirmé le potentiel clinique associé à RelA(p65). La variable RelA(p65)/RelB s’est, elle, avérée moins informative que RelA(p65). Par contre, aucune corrélation entre RelB et les paramètres cliniques inclus dans l'étude n’est ressortie. En définitive, mon projet de thèse aura permis de préciser l'implication de la voie alternative NF-κB sur la biologie du CaP. Son impact sur la croissance des cellules cancéreuses prostatiques ainsi que sur l'autophagie, dénote l’ambivalence de la voie alternative NF-κB face à la tumorigénèse du CaP. L’étude exhaustive de la signalisation NF-κB souligne davantage l'importance de la voie classique dont l’intérêt clinique est principalement associé au statut de RelA(p65). Ainsi, bien que RelB n’affiche aucun potentiel en tant que biomarqueur exploitable en clinique, l’analyse de l’intervention de la voie alternative NF-κB sur la biologie des cellules cancéreuses prostatiques reste d’intérêt pour la compréhension de son rôle exact dans la progression du CaP. / Prostate cancer (PCa) is the most frequently diagnosed cancer and represents the third cause of cancer-death in Canadian men. Despite effective first-line therapies, many patients experience disease recurrence where PCa progresses toward a more aggressive form. Several parameters, largely clinical, have been used to predict the progression of PCa but their accuracy is still limited and implies the need for new biomarkers to fill this gap. Previous research from the laboratory has demonstrated that the transcription factor NF-B, and its nuclear localization, could be such a prognostic biomarker. Studies in our laboratory and elsewhere have correlated RelA(p65) with a clinical progression in PCa, underlining the importance of the classical NF-B pathway. The involvement of the alternative NF-B pathway in the progression of PCa was also suggested in one of our studies showing the correlation between the nuclear distribution of RelB and Gleason score. While the classical pathway is well documented and its involvement in the PCa progression established, the alternative NF-B pathway remains largely unexplored. This thesis describes two research objectives that aims to clarify the involvement of the alternative NF-B pathway in PCa. The first objective assessed the impact of the alternative NF-B pathway activation on the biology of PCa cells. RelB overexpression in 22RV1 PCa cells highlighted an effect of the alternative NF-B pathway on cell proliferation and autophagy. Its dual role in cell growth and a form of cell death requires further study to understand the balance of these in PCa tumorigenesis. To date no study has addressed the comparative prognostic potential of both the classical and alternative NF-B pathways simultaneously. Therefore the second objective of this research project was to analyze both RelA(p65) and RelB at a cellular level in the same tissue of patients with PCa to determine their unique and combined contribution to predicting biochemical recurrence in patients. This analysis was possible through immunofluorescent labeling of RelA (p65) and RelB, and was followed by a quantitative and objective analysis using an appropriate software. Our work confirmed the predictive value of RelA(p65) for biochemical recurrance. Combining RelA(p65) with RelB weakened the association, and RelB on its own was not found to predict biochemical recurrance. Ultimately, the research presented here has clarified the involvement of the alternative NF-B pathway on the biology of PCa. Its impact on the growth of PCa cells as well as autophagy reveals the dual role of the alternative NF-B pathway in PCa tumorigenesis. This exhaustive study of NF-B in PCa tissues further underscores the importance of the classical pathway whose clinical interest is mainly associated with RelA(p65) status. Thus, although RelB shows no potential as a clinically exploitable biomarker, further studies are needed to determine whether RelB contributes, either positively or negatively, and in a temporal fashion, to PCa progression. cancer de la prostate NF-kappaB RelB RelA(p65) autophagie immunofluorescence prostate cancer autophagy immunofluorescence
5	Rôle de NF-kappaB dans la progression du cancer de la prostate : études clinicopathologiques et moléculaires Lessard, Laurent January 2007 (has links) Thèse numérisée par la Direction des bibliothèques de l'Université de Montréal. Cancer de la prostate Nuclear Factor-kappaB RelA(p65)/p50/RelB/p52 Immunohistochimie Récepteur aux androgènes Thérapie de privation d'androgènes
6	REDOX-REGULATED RELB-AR AXIS MEDIATES PROSTATE SPECIFIC ANTIGEN EXPRESSION: INSIGHT IN PROSTATE CANCER RESPONSE TO RADIATION THERAPY Miao, Lu 01 January 2013 (has links) Although the prostate specific antigen (PSA) test is widely used in clinical settings for prostate cancer (PCa) diagnosis and post-treatment follow-up monitoring, false positive PSA test results, which contribute to over-diagnosis of PCa, and false negative results, which miss some patients with aggressive PCa, remain problems of clinical importance. Our study demonstrates that radiation therapy, which is widely used for treatment of localized PCa, generates TNF-α in tumor cells and stromal fibroblasts, redox dependently. Interestingly, TNF-α rapidly and transiently triggers the RelA-mediated NF-κB canonical pathway, but its effect on RelB expression is more robust and long lasting, which leads to sustainable suppression of PSA expression. TNF-α further amplifies endogenous reactive oxygen species (ROS) partially through NADPH oxidase activation and mediates redox-dependent downstream signaling pathways. Addition of the NADPH oxidase inhibitor or ROS scavengers such as superoxide dismutase (SOD) mimetic can abrogate TNF-α-mediated suppression of PSA expression by inhibiting the RelB-AR axis. Treatment with TNF-α suppresses PSA expression and it confers minor yet statistically significant protection to LNCap cells against irradiation, indicating that radiation-induced TNF-α may not only interfere with the PSA-based PCa diagnosis and post-treatment monitoring but may also diminish the efficacy of radiotherapy. In addition, we uncover a role for RelB in suppressing PSA expression at the advanced stage of PCa, which could be a mechanism for the low PSA level in some patients bearing aggressive PCa. Experiments with both RelB overexpression and siRNA knockdown indicate that RelB negatively regulates androgen receptor (AR) and PSA levels in human prostate cancer, LNCap, cells. RelB directly interacts with AR to form a complex on the enhancer elements of the PSA promoter. Thus, the RelB-AR axis is an important contributor to PSA suppression at the advanced stage of PCa. Overall, this study is the first to reveal a redox-mediated association among radiation-generated TNF-α, activation of the RelB-mediated alternative NF-kappaB pathway and PSA suppression. This mechanistic information provides new insights with practical and clinical implications for PSA-based PCa diagnosis and post-treatment monitoring as well as redox intervention in radiation therapy. radiation therapy prostate cancer RelB-AR axis PSA oxidative stress Medical Cell Biology Medical Molecular Biology Oncology
7	TCDD represses 3'<i>Igh</i>RR activation through an AhR-dependent shift in the NF-κB/Rel protein complexes binding to κB motifs within the hs1,2 and hs4 enhancers Salisbury, Richard L., Jr. 29 May 2014 (has links) No description available. Environmental Science Immunology Toxicology Molecular Biology NF-kappaB NF-kB TCDD Immonotoxicology AhR aryl hydrocarbon receptor Toll-like receptor Dioxin B-cell, immunosuppression RelA RelB TLR

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