Global ETD Search

271	Targeted delivery of a colchicine analogue provides synergy with ATR inhibition in cancer cells Mprah Barnieh, Francis, Morais, Goreti R., Garland, Herbie, Loadman, Paul, Falconer, Robert A. 13 May 2022 (has links) Yes / Despite significant preclinical promise as anticancer agents, vascular-disrupting agents have yet to fulfil their clinical potential due to systemic toxicities. ICT2588 is a tumour-selective MT1-MMP-targeted prodrug of azademethylcolchicine, ICT2552. We investigate activation of ICT2588 and subsequent release of ICT2552 in tumour cells, and examine its ability to induce G2/M cell cycle arrest. We also explore synergism between ICT2588 and ATR inhibition, since colchicine, in addition to its vascular-disrupting properties, is known to induce G2/M arrest, DNA damage, and trigger apoptosis. Several ATR inhibitors are currently undergoing clinical evaluation. The cellular activation of ICT2588 was observed to correlate with MT1-MMP expression, with selective release of ICT2552 not compromised by cellular uptake and prodrug activation mechanisms. ICT2588 induced G2/M arrest, and triggered apoptosis in MT1-MMP-expressing cells, but not in cells lacking MT1-MMP expression, while ICT2552 itself induced G2/M arrest and triggered apoptosis in both cell lines. Interestingly, we uncovered that the intracellular release and accumulation dynamics of ICT2552 subsequent to prodrug activation provided synergism with an ATR inhibitor in a way not observed with direct administration of ICT2552. These findings have important potential implications for clinical combinations of ICT2588 and DNA repair inhibitors. Colchicine ICT2588 AZD6738 (Ceralasertib) VDA (Vascular disrupting agent) Anticancer agents Cancer cells
272	Estudo dos efeitos da LDL (-) na angiogênese modelos in vitro e in vivo / Effects of LDL (-) on angiogenesis in vitro and in vivo models Sangaletti, Laila Abicair 03 March 2008 (has links) Diversas doenças estão associadas com a formação de novos vasos a parti vasos pré-existentes, ou angiogênese. Dentre elas está a aterosclerose (Griffioen & Molema, 2000). Pesquisas recentes demonstram que a hipercolesterolemia, que têm um papel importante na fisiologia da aterosclerose, também pode prejudicar a ação de fatores angiogênicos (Jang et.al., 2000). A hipercolesterolemia que é decorrente de aumento de LDL no plasma ocasiona um aumento no tempo de permanência desta partícula na circulação (Yasunobu, 2001). Contudo, a LDL pode sofrer modificação na circulação, dando origem a uma subfração mais eletronegativa da LDL, a LDL (-). A LDL (-) pode prejudicar cada etapa da angiogênese, desregulando a função endotelial (Tai et. al., 2006). Em nosso estudo, vimos que apesar da LDL (-) ter estimulado a miga celular, esta partícula inibiu a formação de túbulos in vitro. A LDL (-) não foi capa afetar a angiogênese in vivo. / A large number of diseases is associated with formation of new blood vessels out of pre-existing capillaries, or angiogenesis. These diseases include the atherosclerosis (Griffioen & Molema, 2000). Resents researches demonstrate that the hypercholesterolemia, that have a important role in the physiology of the atherosclerosis, can impaired the angiogenesis (Jang et. al., 2000) . The hypercholesterolemia that is decurrente of high levels of LDL in the plasma causes an increase in the time of permanence this particle in the circulation (Yasunobu, 2001). However, the LDL can to suffer modification in the circulation, giving rise to a subfration more eletronegative from LDL, the LDL (-). The LDL (-) could impair each one of the steps of the angiogenesis, thereby dysregulating endothelial function (Tai et. al., 2006). In our study, see that despite the LDL (-) have stimulated the cell migration, this particle inhibited the Tube formation in vitro. The LDL (-) didn\'t affect the angiogenesis in vivo. Angiogênese Angiogenesis Angiopoietinas Angiopoietins Angiostatin Angiostatina Blood vessels (Formation; Study) Células endoteliais (Estudo) Citocinas Cytokine Endostatin Endostatina Endothelial cells (Study) Fatores de crescimento FGF FGF Growth factors LDL (-) LDL (-) LDL oxidada MMP MMP Oxidized LDL TIMP TIMP Vasos sanguíneos (Formação; Estudo) VEGF VEGF
273	Hanseníase neural, aspectos diagnósticos da forma neural pura e mecanismos imunopatogênicos da lesão do nervo na doença. Participação de quimiocinas CCL2 e CXCL10 e metaloproteinases 2 e 9 / Neural leprosy, pure neural leprosy diagnosis and imunopatogenic mechanisms of nerve damage during the disease. Participation of chemokines CCL2 and CXCL10) and metalloproteinases 2 and 9 Mildred Ferreira Medeiros 18 March 2014 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / O diagnóstico da hanseníase neural pura baseia-se em dados clínicos e laboratoriais do paciente, incluindo a histopatologia de espécimes de biópsia de nervo e detecção de DNA de Mycobacterium leprae (M. leprae) pelo PCR. Como o exame histopatológico e a técnica PCR podem não ser suficientes para confirmar o diagnóstico, a imunomarcação de lipoarabinomanana (LAM) e/ou Glicolipídio fenólico 1 (PGL1) - componentes de parede celular de M. leprae foi utilizada na primeira etapa deste estudo, na tentativa de detectar qualquer presença vestigial do M. leprae em amostras de nervo sem bacilos. Além disso, sabe-se que a lesão do nervo na hanseníase pode diretamente ser induzida pelo M. leprae nos estágios iniciais da infecção, no entanto, os mecanismos imunomediados adicionam severidade ao comprometimento da função neural em períodos sintomáticos da doença. Este estudo investigou também a expressão imuno-histoquímica de marcadores envolvidos nos mecanismos de patogenicidade do dano ao nervo na hanseníase. Os imunomarcadores selecionados foram: quimiocinas CXCL10, CCL2, CD3, CD4, CD8, CD45RA, CD45RO, CD68, HLA-DR, e metaloproteinases 2 e 9. O estudo foi desenvolvido em espécimes de biópsias congeladas de nervo coletados de pacientes com HNP (n=23 / 6 BAAR+ e 17 BAAR - PCR +) e pacientes diagnosticados com outras neuropatias (n=5) utilizados como controle. Todas as amostras foram criosseccionadas e submetidas à imunoperoxidase. Os resultados iniciais demonstraram que as 6 amostras de nervos BAAR+ são LAM+/PGL1+. Já entre as 17 amostras de nervos BAAR-, 8 são LAM+ e/ou PGL1+. Nas 17 amostras de nervos BAAR-PCR+, apenas 7 tiveram resultados LAM+ e/ou PGL1+. A detecção de imunorreatividade para LAM e PGL1 nas amostras de nervo do grupo HNP contribuiu para a maior eficiência diagnóstica na ausência recursos a diagnósticos moleculares. Os resultados da segunda parte deste estudo mostraram que foram encontradas imunoreatividade para CXCL10, CCL2, MMP2 e MMP9 nos nervos da hanseníase, mas não em amostras de nervos com outras neuropatias. Além disso, essa imunomarcação foi encontrada predominantemente em células de Schwann e em macrófagos da população celular inflamatória nos nervos HNP. Os outros marcadores de ativação imunológica foram encontrados em leucócitos (linfócitos T e macrófagos) do infiltrado inflamatório encontrados nos nervos. A expressão de todos os marcadores, exceto CXCL10, apresentou associação com a fibrose, no entanto, apenas a CCL2, independentemente dos outros imunomarcadores, estava associada a esse excessivo depósito de matriz extracelular. Nenhuma diferença na frequência da imunomarcação foi detectada entre os subgrupos BAAR+ e BAAR-, exceção feita apenas às células CD68+ e HLA-DR+, que apresentaram discreta diferença entre os grupos BAAR + e BAAR- com granuloma epitelioide. A expressão de MMP9 associada com fibrose é consistente com os resultados anteriores do grupo de pesquisa. Estes resultados indicam que as quimiocinas CCL2 e CXCL10 não são determinantes para o estabelecimento das lesões com ou sem bacilos nos em nervo em estágios avançados da doença, entretanto, a CCL2 está associada com o recrutamento de macrófagos e com o desenvolvimento da fibrose do nervo na lesão neural da hanseníase. / The diagnosis of pure neural leprosy (PNL) is based on clinical and laboratory data, including the histopathology of nerve biopsy specimens and detection of M. leprae DNA by polymerase chain reaction (PCR). Given that histopathological examination and PCR methods may not be sufficient to confirm diagnosis, immunolabeling of lipoarabinomanan (LAM) and/or phenolic glycolipid 1 (PGL1) M. leprae wall components were utilized in the first step of this investigation in an attempt to detect any vestigial presence of M. leprae in AFB- nerve samples. Furthermore, its well known that nerve damage in leprosy can be directly induced by Mycobacterium leprae in the early stages of infection; however, immunomediated mechanisms add gravity to the impairment of neural function in symptomatic periods of the disease. Therefore, this study also investigated the immunohistochemical expression of immunomarkers involved in the pathogenic mechanisms of leprosy nerve damage. These markers selected were CXCL10, CCL2 chemokines and CD3, CD4, CD8, CD45RA, CD45RO, CD68, HLA-DR, metalloproteinases 2 and 9 in nerve biopsy specimens collected from leprosy (23) and nonleprosy patients (5) suffering peripheral neuropathy. Twenty-three PNL nerve samples (6 AFB+ and 17 AFB-PCR+) were cryosectioned and submitted to LAM and PGL1 immunohistochemical staining by immunoperoxidase; 5 nonleprosy nerve samples were used as controls. The 6 AFB-positive samples showed LAM/PGL1 immunoreactivity. Among the 17 AFB- samples, only 8 revealed LAM and/or PGL1 immunoreactivity. In 17 AFB-PCR+ patients, just 7 had LAM and/or PGL1-positive nerve results. In the PNL cases, the detection of immunolabeled LAM and PGL1 in the nerve samples would have contributed to enhanced diagnostic efficiency in the absence of molecular diagnostic facilities. The results of the second part of this study showed that CXCL10-, CCL2-, MMP2- and MMP9-immunoreactivities were found in the leprosy nerves but not in nonleprosy samples. Immunolabeling was predominantly found in recruited macrophages and Schwann cells composing the inflammatory cellular population in the leprosy-affected nerves. The immunohistochemical expression of all the markers, but CXCL10, was associated with fibrosis; however, only CCL2 was, independently from the other markers, associated with this excessive deposit of extracellular matrix. No difference in the frequency of the immunolabeling was detected between the AFB+ and AFB- leprosy subgroups of nerves, exception made to some statistical tendency to difference in regard to CD68+ and HLA-DR+ cells in the AFB- nerves exhibiting epithelioid granuloma. MMP9 expression associated with fibrosis is consistent with previous results of this research group. The findings conveys the idea that CCL2 and CXCL10 chemokines at least in advanced stages of leprosy nerve lesions are not determinant for the establishment of AFB+ or AFB- leprosy lesions, however, CCL2 is associated with macrophage recruitment and fibrosis. Hanseníase Mycobacterium leprae Neuropatia Imuno-histoquímica Quimiocinas CXCL10 CCL2 Células inflamatórias Lipoarabinomanana (LAM) Nervo periférico. Diagnóstico Leprosy Mycobacterium leprae Neuropathy Immunohistochemistry Matrix metalloproteinase (MMP) Chemokines CXCL10 CCL2 Inflammatory cells Lipoarabinomannan (LAM) Phenolic glycolipid (PGL1) Pure neural leprosy Peripheral nerve Diagnosis ANATOMIA PATOLOGICA E PATOLOGIA CLINICA
274	Hanseníase neural, aspectos diagnósticos da forma neural pura e mecanismos imunopatogênicos da lesão do nervo na doença. Participação de quimiocinas CCL2 e CXCL10 e metaloproteinases 2 e 9 / Neural leprosy, pure neural leprosy diagnosis and imunopatogenic mechanisms of nerve damage during the disease. Participation of chemokines CCL2 and CXCL10) and metalloproteinases 2 and 9 Mildred Ferreira Medeiros 18 March 2014 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / O diagnóstico da hanseníase neural pura baseia-se em dados clínicos e laboratoriais do paciente, incluindo a histopatologia de espécimes de biópsia de nervo e detecção de DNA de Mycobacterium leprae (M. leprae) pelo PCR. Como o exame histopatológico e a técnica PCR podem não ser suficientes para confirmar o diagnóstico, a imunomarcação de lipoarabinomanana (LAM) e/ou Glicolipídio fenólico 1 (PGL1) - componentes de parede celular de M. leprae foi utilizada na primeira etapa deste estudo, na tentativa de detectar qualquer presença vestigial do M. leprae em amostras de nervo sem bacilos. Além disso, sabe-se que a lesão do nervo na hanseníase pode diretamente ser induzida pelo M. leprae nos estágios iniciais da infecção, no entanto, os mecanismos imunomediados adicionam severidade ao comprometimento da função neural em períodos sintomáticos da doença. Este estudo investigou também a expressão imuno-histoquímica de marcadores envolvidos nos mecanismos de patogenicidade do dano ao nervo na hanseníase. Os imunomarcadores selecionados foram: quimiocinas CXCL10, CCL2, CD3, CD4, CD8, CD45RA, CD45RO, CD68, HLA-DR, e metaloproteinases 2 e 9. O estudo foi desenvolvido em espécimes de biópsias congeladas de nervo coletados de pacientes com HNP (n=23 / 6 BAAR+ e 17 BAAR - PCR +) e pacientes diagnosticados com outras neuropatias (n=5) utilizados como controle. Todas as amostras foram criosseccionadas e submetidas à imunoperoxidase. Os resultados iniciais demonstraram que as 6 amostras de nervos BAAR+ são LAM+/PGL1+. Já entre as 17 amostras de nervos BAAR-, 8 são LAM+ e/ou PGL1+. Nas 17 amostras de nervos BAAR-PCR+, apenas 7 tiveram resultados LAM+ e/ou PGL1+. A detecção de imunorreatividade para LAM e PGL1 nas amostras de nervo do grupo HNP contribuiu para a maior eficiência diagnóstica na ausência recursos a diagnósticos moleculares. Os resultados da segunda parte deste estudo mostraram que foram encontradas imunoreatividade para CXCL10, CCL2, MMP2 e MMP9 nos nervos da hanseníase, mas não em amostras de nervos com outras neuropatias. Além disso, essa imunomarcação foi encontrada predominantemente em células de Schwann e em macrófagos da população celular inflamatória nos nervos HNP. Os outros marcadores de ativação imunológica foram encontrados em leucócitos (linfócitos T e macrófagos) do infiltrado inflamatório encontrados nos nervos. A expressão de todos os marcadores, exceto CXCL10, apresentou associação com a fibrose, no entanto, apenas a CCL2, independentemente dos outros imunomarcadores, estava associada a esse excessivo depósito de matriz extracelular. Nenhuma diferença na frequência da imunomarcação foi detectada entre os subgrupos BAAR+ e BAAR-, exceção feita apenas às células CD68+ e HLA-DR+, que apresentaram discreta diferença entre os grupos BAAR + e BAAR- com granuloma epitelioide. A expressão de MMP9 associada com fibrose é consistente com os resultados anteriores do grupo de pesquisa. Estes resultados indicam que as quimiocinas CCL2 e CXCL10 não são determinantes para o estabelecimento das lesões com ou sem bacilos nos em nervo em estágios avançados da doença, entretanto, a CCL2 está associada com o recrutamento de macrófagos e com o desenvolvimento da fibrose do nervo na lesão neural da hanseníase. / The diagnosis of pure neural leprosy (PNL) is based on clinical and laboratory data, including the histopathology of nerve biopsy specimens and detection of M. leprae DNA by polymerase chain reaction (PCR). Given that histopathological examination and PCR methods may not be sufficient to confirm diagnosis, immunolabeling of lipoarabinomanan (LAM) and/or phenolic glycolipid 1 (PGL1) M. leprae wall components were utilized in the first step of this investigation in an attempt to detect any vestigial presence of M. leprae in AFB- nerve samples. Furthermore, its well known that nerve damage in leprosy can be directly induced by Mycobacterium leprae in the early stages of infection; however, immunomediated mechanisms add gravity to the impairment of neural function in symptomatic periods of the disease. Therefore, this study also investigated the immunohistochemical expression of immunomarkers involved in the pathogenic mechanisms of leprosy nerve damage. These markers selected were CXCL10, CCL2 chemokines and CD3, CD4, CD8, CD45RA, CD45RO, CD68, HLA-DR, metalloproteinases 2 and 9 in nerve biopsy specimens collected from leprosy (23) and nonleprosy patients (5) suffering peripheral neuropathy. Twenty-three PNL nerve samples (6 AFB+ and 17 AFB-PCR+) were cryosectioned and submitted to LAM and PGL1 immunohistochemical staining by immunoperoxidase; 5 nonleprosy nerve samples were used as controls. The 6 AFB-positive samples showed LAM/PGL1 immunoreactivity. Among the 17 AFB- samples, only 8 revealed LAM and/or PGL1 immunoreactivity. In 17 AFB-PCR+ patients, just 7 had LAM and/or PGL1-positive nerve results. In the PNL cases, the detection of immunolabeled LAM and PGL1 in the nerve samples would have contributed to enhanced diagnostic efficiency in the absence of molecular diagnostic facilities. The results of the second part of this study showed that CXCL10-, CCL2-, MMP2- and MMP9-immunoreactivities were found in the leprosy nerves but not in nonleprosy samples. Immunolabeling was predominantly found in recruited macrophages and Schwann cells composing the inflammatory cellular population in the leprosy-affected nerves. The immunohistochemical expression of all the markers, but CXCL10, was associated with fibrosis; however, only CCL2 was, independently from the other markers, associated with this excessive deposit of extracellular matrix. No difference in the frequency of the immunolabeling was detected between the AFB+ and AFB- leprosy subgroups of nerves, exception made to some statistical tendency to difference in regard to CD68+ and HLA-DR+ cells in the AFB- nerves exhibiting epithelioid granuloma. MMP9 expression associated with fibrosis is consistent with previous results of this research group. The findings conveys the idea that CCL2 and CXCL10 chemokines at least in advanced stages of leprosy nerve lesions are not determinant for the establishment of AFB+ or AFB- leprosy lesions, however, CCL2 is associated with macrophage recruitment and fibrosis. Hanseníase Mycobacterium leprae Neuropatia Imuno-histoquímica Quimiocinas CXCL10 CCL2 Células inflamatórias Lipoarabinomanana (LAM) Nervo periférico. Diagnóstico Leprosy Mycobacterium leprae Neuropathy Immunohistochemistry Matrix metalloproteinase (MMP) Chemokines CXCL10 CCL2 Inflammatory cells Lipoarabinomannan (LAM) Phenolic glycolipid (PGL1) Pure neural leprosy Peripheral nerve Diagnosis ANATOMIA PATOLOGICA E PATOLOGIA CLINICA
275	Estudo dos efeitos da LDL (-) na angiogênese modelos in vitro e in vivo / Effects of LDL (-) on angiogenesis in vitro and in vivo models Laila Abicair Sangaletti 03 March 2008 (has links) Diversas doenças estão associadas com a formação de novos vasos a parti vasos pré-existentes, ou angiogênese. Dentre elas está a aterosclerose (Griffioen & Molema, 2000). Pesquisas recentes demonstram que a hipercolesterolemia, que têm um papel importante na fisiologia da aterosclerose, também pode prejudicar a ação de fatores angiogênicos (Jang et.al., 2000). A hipercolesterolemia que é decorrente de aumento de LDL no plasma ocasiona um aumento no tempo de permanência desta partícula na circulação (Yasunobu, 2001). Contudo, a LDL pode sofrer modificação na circulação, dando origem a uma subfração mais eletronegativa da LDL, a LDL (-). A LDL (-) pode prejudicar cada etapa da angiogênese, desregulando a função endotelial (Tai et. al., 2006). Em nosso estudo, vimos que apesar da LDL (-) ter estimulado a miga celular, esta partícula inibiu a formação de túbulos in vitro. A LDL (-) não foi capa afetar a angiogênese in vivo. / A large number of diseases is associated with formation of new blood vessels out of pre-existing capillaries, or angiogenesis. These diseases include the atherosclerosis (Griffioen & Molema, 2000). Resents researches demonstrate that the hypercholesterolemia, that have a important role in the physiology of the atherosclerosis, can impaired the angiogenesis (Jang et. al., 2000) . The hypercholesterolemia that is decurrente of high levels of LDL in the plasma causes an increase in the time of permanence this particle in the circulation (Yasunobu, 2001). However, the LDL can to suffer modification in the circulation, giving rise to a subfration more eletronegative from LDL, the LDL (-). The LDL (-) could impair each one of the steps of the angiogenesis, thereby dysregulating endothelial function (Tai et. al., 2006). In our study, see that despite the LDL (-) have stimulated the cell migration, this particle inhibited the Tube formation in vitro. The LDL (-) didn\'t affect the angiogenesis in vivo. Angiogênese Angiopoietinas Angiostatina Células endoteliais (Estudo) Citocinas Endostatina Fatores de crescimento FGF LDL (-) LDL oxidada MMP TIMP Vasos sanguíneos (Formação; Estudo) VEGF Angiogenesis Angiopoietins Angiostatin Blood vessels (Formation; Study) Cytokine Endostatin Endothelial cells (Study) FGF Growth factors LDL (-) MMP Oxidized LDL TIMP VEGF
276	Impact du statut de différenciation des cellules promyélocytaires HL-60 sur l’efficacité anticancéreuse et antiinflammatoire de l’EGCG Vézina, Amélie 05 1900 (has links) L’altération de la barrière hématoencéphalique (BHE) par les cellules tumorales et les cellules immunes circulantes peut mener à la neuroinflammation. Les cellules leucémiques promyélocytaires HL-60 sont un excellent modèle pour étudier et comprendre les mécanismes de signalisation moléculaires qui caractérisent le développement tumoral et métastatique. La cancérogenèse peut s’accompagner de modulations de l’expression de biomarqueurs tels que la cyclooxygénase-2 et la métalloprotéase-9. Les recherches décrites dans ce mémoire relatent l’analyse des biomarqueurs inflammatoires et invasifs régulés lors de la différenciation induite par le PMA des cellules HL-60 en macrophages. Le statut de différenciation cellulaire pourrait avoir un impact sur les gènes cibles de la voie NF-κB. Nous émettons l’hypothèse que le PMA active la voie NF-κB et que cette signalisation peut être renversée par l’(-)-épigallocatéchine-gallate (EGCG). En effet, une régulation à la hausse de l’expression de plusieurs gènes combinée à la diminution de l’expression d’IκB mettent en évidence l’implication de la voie NF-κB dans l’activation des mécanismes pro-inflammatoires et pro-invasifs. Les mêmes observations sont faites dans les cellules différenciées appelées «macrophages-like». L’EGCG, un polyphénol dérivé du thé vert, a un potentiel chimiopréventif. Il est capable d’inhiber la signalisation moléculaire passant par la voie NF-κB dans les cellules HL-60 traitées simultanément par l’EGCG et le PMA, mais pas dans les cellules «macrophages-like». Cette différence peut s’expliquer par une modulation de l’expression du récepteur de surface cellulaire de l’EGCG, le récepteur à la laminine de 67 kDa, et de son précurseur de 37 kDa. Collectivement, nos résultats montrent que le statut de différenciation des cellules promyélocytaires HL-60 concorde avec l’activation des mécanismes favorisant le développement d’un cancer et des métastases. Cet effet peut être prévenu par l’utilisation d’agents naturels tel l’EGCG. Le ciblage de biomarqueurs liés au statut de différenciation des cellules tumorales impliquées dans la perturbation de la barrière hématoencéphalique qui cause la neuroinflammation permettrait l’avancement des connaissances dans la prévention de la cancérogenèse. / Blood-brain barrier (BBB) disruption by circulating tumor and immune cells leads to secondary inflammatory infections. Promyelocytic HL-60 cells represent an excellent model to study and to get a better understanding of the molecular signaling mechanisms involved in carcinogenesis and metastasis. The research described in this thesis shows the analysis of several inflammatory and invasive biomarkers regulated during PMA-induced differentiation of promyelocytic HL-60 cells into macrophages. Carcinogenesis involves some modifications in the expression of biomarkers such as cyclooxygenase-2 and matrix metalloprotease-9. The differentiation status could have an impact on the NF-κB signaling pathway that regulates the target genes, given that these target genes expression varies during cell differentiation. We hypothesize that the activation of the NF-κB pathway by PMA can be reverse by (-)-epigallocatechin-gallate (EGCG). Indeed, the up-regulation of downstream genes combined with the down-regulation of IκB expression showed the significant implication of the NF-κB signaling pathway to activate pro-inflammatory and pro-invasive mechanisms linked to carcinogenesis. The same evidence exhibits in the differentiated cells called «macrophages-like». Moreover, the green tea polyphenol, EGCG, shows chemopreventive property since it better inhibited NF-κB signaling in cells treated simultaneously with EGCG and PMA compared to the «macrophages-like». This difference could be due, in part, to the down-regulation of the 67 kDa laminin receptor, known to be the non-integrin membrane receptor for EGCG. All together, our results suggest that the differentiation status of promyelocytic cells is linked to the activation of mechanisms involved in carcinogenesis and metastasis. These phenomena can be prevented by using natural agents such as EGCG. Targeting the specific biomarkers linked to the differentiation status of tumor cells and involved in the disruption of the BBB may help reduce secondary neuroinflammation and enable the advancement of knowledge towards carcinogenesis prevention. cellules HL-60 inflammation cyclooxygénase-2 métalloprotéase matricielle (MMP-9) NF-kB (-)-épigallocatéchine-3-gallate HL-60 cells cyclooxygenase-2 matrix metalloprotease (-)-epigallocatechin-3-gallate
277	Identification and characterization of new biomarkers in aggressive subtypes of breast cancer Yousef, Einas 05 1900 (has links) En 2015, la récidive tumorale et les métastases du cancer du sein demeurent une cause importante de décès à travers le monde. Toutefois, ces cancers sont souvent hétérogènes car en dépit d’un phénotype similaire, l’évolution clinique et la réponse au traitement peuvent varier considérablement. Il y a donc un intérêt évident à identifier et à caractériser de nouveaux biomarqueurs pour permettre classer les tumeurs mammaires dans des sous-groupes plus homogènes. Notre hypothèse est que chaque cancer mammaire possède des caractéristiques distinctes au plan des altérations du génome et des profils d’expression géniques et que ces changements se traduisent cliniquement par une prédisposition à former des métastases ou à répondre ou non à la chimiothérapie et aux thérapies ciblées. Dans le cadre de nos travaux, nous nous sommes intéressés aux sous-types agressifs de tumeurs mammaires et notamment les cancers de type triple négatif. Nous avons aussi tenté d’identifier des marqueurs capables de distinguer l’une de l’autre les tumeurs de type luminal A et luminal B. Pour ce faire, nous avons d’abord utilisé une stratégie in silico à partir de données publiques (micro-puces d’ADN et séquençage de l’ARN). Nous avons ensuite construit sept micro-matrices tissulaires (TMA) provenant de tissus mammaires normaux et tumoraux fixés à la formaline et enrobés en paraffine. Ces outils nous ont permis d’évaluer par immunohistochimie les niveaux d’expression différentielle des marqueurs suivants : ANXA1, MMP-9, DP103 et MCM2. Ceux-ci ont été comparés aux marqueurs usuels du cancer du sein (ER, PR, HER2, CK5/6 et FOXA1) et corrélés aux données cliniques (survie globale et métastase). Nos résultats indiquent que ces nouveaux marqueurs jouent un rôle important dans l’évolution clinique défavorable des tumeurs de haut grade. Dans un premier article nous avons montré que l’expression d’ANXA1 est dérégulée dans les cancers de type triple-négatif et aussi, dans une certaine mesure, dans les tumeurs HER2+. Nous croyons qu’ANXA1 permet de mieux comprendre le processus d’hétérogénéité tumorale et facilite l’identification des tumeurs de haut grade. Nous proposons également qu’ d’ANXA1 stimule la transition épithélio-mésenchymateuse (EMT) et la formation des métastases. Dans un second temps, nous avons montré que les niveaux d’expression de MMP-9 reflètent la différenciation cellulaire et corrèlent avec les sous-types de cancers mammaires ayant un mauvais pronostic. Nous estimons que MMP-9 permet de mieux comprendre et d’identifier les tumeurs mammaires à haut risque. De fait, la surexpression de MMP-9 est associée à une augmentation des métastases, une récidive précoce et une diminution de la survie globale. Dans le cadre d’un troisième article, nous avons montré que la surexpression du marqueur de prolifération MCM2 s’observe dans les cancers triple-négatifs, HER2+ et Luminal B par comparaison aux cancers luminal A (p< 0.0001). Nos résultats suggèrent qu’en utilisant un seuil de 40% de noyaux marqués, nous pourrions distinguer l’une de l’autre les tumeurs de type luminal A et luminal B. Cela dit, avant de pouvoir envisager l’utilisation de ce marqueur en clinique, une étude de validation sur une nouvelle cohorte de patientes s’impose. En somme, les résultats de nos travaux suggèrent qu’ANXA1, MMP-9 et MCM2 sont des marqueurs intéressants pour mieux comprendre les mécanismes physiopathologiques impliqués dans la progression tumorale et le développement des métastases. À terme, ces nouveaux marqueurs pourraient être utilisés seuls ou en combinaison avec d’autres gènes candidats pour permettre le développement de trousses « multigènes » ou d’essais protéomiques multiplex pour prédire l’évolution clinique des cancers mammaires. / In 2015, breast cancer remains a leading cause of death among women worldwide due to relapse and metastases. However, mammary tumors are known to be heterogeneous in terms of their clinical course and response to treatment, despite a seemingly similar phenotype. There is therefore an obvious need to identify and characterize new biomarkers of progression in breast cancers so that each tumor can be properly classified. Our hypothesis is that each breast cancer has its own set of genomic abnormalities or altered pattern of gene expression that can explain the aggressiveness of each tumor, its ability to metastasize and its response to chemotherapeutic agents or other forms of targeted therapies. In this study, our aim is to identify and characterize new biomarkers with prognostic value in aggressive subsets of breast cancer focusing primarily on triple-negative tumors and luminal B breast cancer. To achieve those aims, we conducted an in silico search from public databases of DNA microchip and RNA sequencing data. We next constructed seven tissue microarrays (TMA) using paraffin blocks from human breast cancer along with normal breast to examine the differential expression of new putative markers: ANXA1, MMP-9, DP103 and MCM2. Expression levels measured by immunohistochemistry were then compared to other conventional markers of breast cancer (ER, PR, HER2, Ki-67, CK 5/6, FOXA1) and correlated with clinical data (overall survival and metastasis). By comparing the relative expression of these markers in human breast tumors we were able to pinpoint the important role of ANXA1, MMP-9, DP103, and MCM2 in aggressive tumor subtypes recognized for their poor clinical course. Firstly, we have shown that ANXA1 expression is severely deregulated in high-grade breast cancers including triple-negative and, to some extent, HER2-positive breast cancers. In addition, our results also indicated a possible role of ANXA1 in regulating EMT and breast cancer cell metastasis. Secondly, expression of MMP-9 was found to mirror the degree of tumor differentiation and to correlate with breast cancers of unfavorable outcome. This implies that MMP-9 can help better characterize the biology of breast carcinoma and to identify subgroups of high-risk breast tumors. In fact, we found that high levels of MMP-9 in tumors were associated with increased metastatic dissemination, early relapse and reduced survival. Thirdly, we demonstrated that MCM2 is overexpressed in triple-negative, HER2 positive and luminal B breast cancer in comparison to luminal A breast cancer (p-value < 0.0001). Our findings support the notion that MCM2 can be used to distinguish luminal A from luminal B breast cancer based on a 40% index cut-point. However, an independent validation cohort is needed to confirm the clinical utility of MCM2. Lastly, our results suggest that ANXA1, MMP-9 and MCM2 are valuable genes/proteins candidate that can help better understand the mechanisms involved in tumor progression and metastasis. One may also envisage their use, alone or in combination with other genes, in the development of a multi-gene panel or multiplex proteomic assay to predict clinical outcome and guide therapeutic decisions. Cancer du sein humain Biomarqueur L'analyse silico Matrices tissulaires ANXA1 MMP-9 MCM2 Ki-67 Human breast cancer Biomarker In silico analysis Tissue microarray
278	Isolation and functional analysis of differentially expressed genes in human prostate cancer / Analysis of differentially expressed genes in human prostate cancer / Isolierung und funktionelle Analyse differentiell exprimierter Gene im humanen Prostatakarzinom / Analyse differentiell exprimierter Gene im humanen Prostatakarzinom Grzmil, Michal 28 January 2003 (has links) No description available. 570 Biowissenschaften, Biologie Mathematics and Computer Science Prostatakrebs Zellinvasion Proliferation Zellapoptose prostate cancer invasion proliferation apoptosis IGF-IR MMP-2 IGFBP-3 BI-1 PC-3 LNCaP;siRNA LCM 42.13 42.15 42.20 WH 000: Cytologie {Biologie}
279	Impact du statut de différenciation des cellules promyélocytaires HL-60 sur l’efficacité anticancéreuse et antiinflammatoire de l’EGCG Vézina, Amélie 05 1900 (has links) L’altération de la barrière hématoencéphalique (BHE) par les cellules tumorales et les cellules immunes circulantes peut mener à la neuroinflammation. Les cellules leucémiques promyélocytaires HL-60 sont un excellent modèle pour étudier et comprendre les mécanismes de signalisation moléculaires qui caractérisent le développement tumoral et métastatique. La cancérogenèse peut s’accompagner de modulations de l’expression de biomarqueurs tels que la cyclooxygénase-2 et la métalloprotéase-9. Les recherches décrites dans ce mémoire relatent l’analyse des biomarqueurs inflammatoires et invasifs régulés lors de la différenciation induite par le PMA des cellules HL-60 en macrophages. Le statut de différenciation cellulaire pourrait avoir un impact sur les gènes cibles de la voie NF-κB. Nous émettons l’hypothèse que le PMA active la voie NF-κB et que cette signalisation peut être renversée par l’(-)-épigallocatéchine-gallate (EGCG). En effet, une régulation à la hausse de l’expression de plusieurs gènes combinée à la diminution de l’expression d’IκB mettent en évidence l’implication de la voie NF-κB dans l’activation des mécanismes pro-inflammatoires et pro-invasifs. Les mêmes observations sont faites dans les cellules différenciées appelées «macrophages-like». L’EGCG, un polyphénol dérivé du thé vert, a un potentiel chimiopréventif. Il est capable d’inhiber la signalisation moléculaire passant par la voie NF-κB dans les cellules HL-60 traitées simultanément par l’EGCG et le PMA, mais pas dans les cellules «macrophages-like». Cette différence peut s’expliquer par une modulation de l’expression du récepteur de surface cellulaire de l’EGCG, le récepteur à la laminine de 67 kDa, et de son précurseur de 37 kDa. Collectivement, nos résultats montrent que le statut de différenciation des cellules promyélocytaires HL-60 concorde avec l’activation des mécanismes favorisant le développement d’un cancer et des métastases. Cet effet peut être prévenu par l’utilisation d’agents naturels tel l’EGCG. Le ciblage de biomarqueurs liés au statut de différenciation des cellules tumorales impliquées dans la perturbation de la barrière hématoencéphalique qui cause la neuroinflammation permettrait l’avancement des connaissances dans la prévention de la cancérogenèse. / Blood-brain barrier (BBB) disruption by circulating tumor and immune cells leads to secondary inflammatory infections. Promyelocytic HL-60 cells represent an excellent model to study and to get a better understanding of the molecular signaling mechanisms involved in carcinogenesis and metastasis. The research described in this thesis shows the analysis of several inflammatory and invasive biomarkers regulated during PMA-induced differentiation of promyelocytic HL-60 cells into macrophages. Carcinogenesis involves some modifications in the expression of biomarkers such as cyclooxygenase-2 and matrix metalloprotease-9. The differentiation status could have an impact on the NF-κB signaling pathway that regulates the target genes, given that these target genes expression varies during cell differentiation. We hypothesize that the activation of the NF-κB pathway by PMA can be reverse by (-)-epigallocatechin-gallate (EGCG). Indeed, the up-regulation of downstream genes combined with the down-regulation of IκB expression showed the significant implication of the NF-κB signaling pathway to activate pro-inflammatory and pro-invasive mechanisms linked to carcinogenesis. The same evidence exhibits in the differentiated cells called «macrophages-like». Moreover, the green tea polyphenol, EGCG, shows chemopreventive property since it better inhibited NF-κB signaling in cells treated simultaneously with EGCG and PMA compared to the «macrophages-like». This difference could be due, in part, to the down-regulation of the 67 kDa laminin receptor, known to be the non-integrin membrane receptor for EGCG. All together, our results suggest that the differentiation status of promyelocytic cells is linked to the activation of mechanisms involved in carcinogenesis and metastasis. These phenomena can be prevented by using natural agents such as EGCG. Targeting the specific biomarkers linked to the differentiation status of tumor cells and involved in the disruption of the BBB may help reduce secondary neuroinflammation and enable the advancement of knowledge towards carcinogenesis prevention. cellules HL-60 inflammation cyclooxygénase-2 métalloprotéase matricielle (MMP-9) NF-kB (-)-épigallocatéchine-3-gallate HL-60 cells cyclooxygenase-2 matrix metalloprotease (-)-epigallocatechin-3-gallate
280	Etude de la fonction de la métalloprotéase matricielle 11 dans l'interaction/dialogue adipocyte-cellule épithéliale de la glande mammaire Tan, Jinxiang 21 September 2012 (has links) (PDF) Dans les tumeurs, les cellules cancéreuses invasives induisent l'expression de la métalloprotéase matricielle 11 (MMP-11) dans les adipocytes adjacents (cancer-associated adipocytes) entrainant leur " dédifférenciation " en fibroblastes, la MMP-11 régulant négativement l'adipogénèse. Au cours de ma thèse, j'ai étudié la fonction de la MMP-11 sur le développement mammaire postnatal. La structure de la glande ainsi que la production de lait sont altérées dans les souris déficientes pour la MMP-11. De plus, la MMP-11 régule l'homéostase du collagène. In vivo, des transplantations montrent une fonction locale paracrine de la MMP-11 essentielle à la morphogenèse mammaire. In vitro, la MMP-11 adipocytaire favorise le branchement d'organoïdes primaires. Ainsi, la MMP-11 est un facteur paracrine majeur pour le développement de la glande mammaire. Enfin, pour poursuivre ces travaux, j'ai établi des souris transgéniques conditionnelles ciblant l'expression de la MMP-11 dans les adipocytes. MMP-11 Glande mammaire Développement Adipocyte Cellule épithéliale Collagène

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