Global ETD Search

51	Etude de la balance réactivation/apoptose des cellules B infectées par l' EBV suite au traitement par un HDACi, le vorinostat / Study of the balance reactivation / apoptosis of B cells infected with EBV following treatment with a HDACi, vorinostat Al Mohamad, Hazar 10 May 2016 (has links) Les inhibiteurs des histones désacétylase (HDACi) constituent une classe prometteuse de médicaments anticancéreux. Ils peuvent déclencher la voie apoptotique et sont proposés pour le traitement des désordres hématologiques. Cependant, les HDACi qui ciblent les HDAC de classe II, tel que le vorinostat, sont également des agents réactivateurs potentiels de l’EBV, un virus qui infecte de manière latente plus de 90% de la population adulte dans le monde et est associée à de nombreux lymphomes de type B. L’étude de la commutation entre le cycle latent et le cycle lytique de l’EBV est essentielle pour appréhender l’impact des HDACi lors du!traitement des lymphomes B associés à l’EBV (risque du relargage de virions en grande quantité lors des traitements chimio thérapeutiques).Notre étude a porté sur l'effet de vorinostat (25 μM pendant 48h) sur des cellules tumorales B infectées par l’EBV : trois lignées de lymphomes de burkitt (BL2B95.8, BL41B95.8 et P3HR1), trois lignées lymphoblastoides (1602, PRI et RUD) et la lignée B95.8 de marmouset en cycle lytique de l’EBV (contrôle positif). Nous avons mis en évidence que le vorinostat peut induire la réactivation de l’EBV (P3HR1 et B95.8) ou à l’apoptose (BL41B95.8, BL2B95.8, 1602, PRI et RUD) avec une inhibition mutuelle de ces deux processus. Au niveau moléculaire, nous avons pu montrer que le vorinostat active constitutivement et simultanément le facteur de transcription initiateur de la réactivation MEF2D (par déphosphorylation) et la MAP kinase pro-apototique p38 (par phosphorylation) suite à la diminution de l’expression de la MAP kinase phosphatase (MPK1) dont p38 est un substrat. Le pré-traitement avec un inhibiteur de p38 (SB203580) a mis en évidence que cette MAP kinase est à la fois impliquée dans les processus de réactivation de l’EBV et d’’apoptose. Cependant, les lignées cellulaires pour lesquelles l'activation de p38 augmente fortement lors du traitement par le vorinostat, entrent directement en apoptose, sans qu’il puisse y avoir réactivation de l’EBV.Nos résultats suggèrent que le niveau d’activation de la MAP kinase p38 permet de réguler la balance réactivation/apoptose des cellules B infectées par l’EBV lorsqu’elles sont soumises à un agent inducteur de la réactivation, en particulier dans le cas de cellules de lymphomes B traitées par le vorinostat. Ils posent la question de l’utilisation des HDACi lors du traitement des lymphomes associés à l'EBV, avec le risque d’une réactivation virale selon le niveau d’activation intracellulaire de p38 et la nécessité d’utiliser simultanément un anti-viral tel que le ganciclovir. / Histone deacetylase inhibitors (HDAC) are a promising class of anticancer drugs. They can trigger the apoptotic pathway and are available for treatment of blood disorders. However, the HDACi that target HDAC class II, as vorinostat, also are potential reactivators agents of EBV, a virus that infects latently over 90% of the adult population worldwide and is associated with many type B lymphomas the study of switching between the latent cycle and the lytic cycle of EBV is essential to understand the impact of HDACi when treating B-cell lymphoma associated with EBV (salting risk virions in large quantities during the chemotherapeutic treatment).Our study focused on the effect of vorinostat (25 .mu.M for 48) on tumor B cells infected with EBV: three lines of Burkitt lymphoma (BL2B95.8, BL41B95.8 and P3HR1), three lymphoblastoid cell lines (1602 PRI and RUD) and B95.8 marmoset line in the lytic cycle of the EBV (positive control). We have demonstrated that vorinostat can induce EBV reactivation (P3HR1 and B95.8) or apoptosis (BL41B95.8, BL2B95.8, 1602, PRI and RUD) with a mutual inhibition of these two process. At the molecular level, we have shown that the active vorinostat constitutively and simultaneously initiating transcription factor reactivation MEF2D (by dephosphorylation) and MAP kinase p38 pro-apototique (phosphorylation) following the reduction in the expression of the MAP kinase phosphatase (MPK1) p38 which is a substrate. The pre-treatment with a p38 inhibitor (SB203580) showed that MAP kinase is both involved in the process of EBV reactivation and apoptosis. However, cell lines where p38 activation greatly increases during treatment with vorinostat, come directly into apoptosis, without there may EBV reactivation.Our results suggest that the level of activation of p38 MAP kinase helps regulate the balance reactivation / apoptosis of B cell EBV infected when exposed to an inducing agent for the reactivation, in particular in the case of cells B lymphoma treated with vorinostat. They raise the question of the use of HDACi in the treatment of lymphomas associated with EBV, with the risk of viral reactivation by level of intracellular activation of p38 and the need to simultaneously use an antiviral such as ganciclovir. EBV Réactivation Apoptose Vorinostat MAP kinase p38 Lymphocytes B EBV Reactivation Apoptosis Vorinostat P38 MAP Kinase B lymphocytes 615.37
52	Role of GSK3β - MLK3 - p38γ MAPK Signalling in Satellite Cell Proliferation Regulation / Le rôle de la voie de signalisation GSK3β-MLK3-p38γ MAPK dans la régulation de la prolifération des cellules satellites Rahal, Pamela 02 July 2015 (has links) MLK3 est une ser/thr MAP3K qui active la voie de signalisation des MAPKs dans différents types cellulaires. GSK3β interagit et active MLK3 en la phosphorylant sur le residue ser 792. Cependant, le rôle de MLK3 ainsi que l’interaction entre MLK3 et GSK3β n’ont pas été précédemment étudiés dans le muscle squelettique. La croissance post-natale du muscle et la régénération musculaire chez l’adulte sont dépendantes de l’accrétion de myonoyaux, un processus médié par les cellules satellites qui prolifèrent, se différencient puis fusionnent aux fibres préexistantes. Durant ma thèse, j’ai démontré que GSK3β agit en amont de MLK3 pour induire la prolifération des cellules satellites, et cela par l’activation de la voie de signalisation MLK3-p38γ MAPK. In vivo, les muscles de souris déficientes injectés par la CTX montrent une diminution du nombre de cellules satellites prolifératrices Pax7+/ki67+, ainsi qu’une accélération du processus de régénération. En conclusion, mes résultats évoquent un nouveau rôle de MLK3 dans le muscle squelettique pouvant servir pour vaincre les dystrophies musculaire. / MLK3 is a Ser/Thr MAP3K, which activates MAPKs signalling pathways in different cell types. The Ser/Thr kinase GSK3-β directly phosphorylate Ser 792 residue and activate MLK3. Since neither the role of MLK3, nor GSK3-β -MLK3 interaction have been previously investigated in muscle, the aim of my thesis was to elucidate their contribution in the regulation of muscle mass and physiology.Skeletal muscle post-natal growth and adult regeneration relies on satellite cell-mediated myonuclear accretion, during which, activated satellite cells, proliferate, differentiate and fuse with preexisting myotubes.I have demonstrated that in skeletal muscle, GSK3-β acts upstream of MLK3 to induce satellite cells proliferation through the induction of MLK3-p38γ MAPK signalling. Similarly, in vivo CTX-induced TA damage in MLK3 KO mice resulted in decreased number of proliferating Pax7+/ki67+ satellite cells, with a rapid muscle regeneration ability.These data suggest provide a yet unknown role of MLK3 in skeletal muscle tissue that could help in curing age-related muscle dystrophies. GSK3 MLK3 P38 MAPK Régénération musculaire Cellules satellites Pax7 GSK3 MLK3 P38 MAPK Muscle regeneration Satellite cells Pax7
53	Identification de nouvelles cibles thérapeutiques dans le cancer de la prostate / Identification of new therapeutic targets in prostate cancer Rakotondrahaso, Valomanda 07 October 2019 (has links) En France, le cancer de la prostate est le premier cancer par son incidence ainsi que la troisième cause de mortalité pour cette pathologie. La progression de la maladie est dépendante des androgènes. Ainsi l’un des traitements majeurs du cancer de la prostate est la déprivation androgénique : le blocage de la production ou de l’action des androgènes conduit à inhiber la croissance tumorale. La plupart des patients répondent à cette thérapie, cependant l’évolution de la pathologie vers un stade d’insensibilité à la castration est inévitable, ce qui est associé à un mauvais pronostic. Au cours de la progression du cancer de la prostate, la voie de signalisation des androgènes demeure active grâce au récepteur des androgènes. Ce récepteur est une cible idéale afin de traiter et de bloquer la progression tumorale. Une telle inhibition du récepteur des androgènes peut être faite par l’utilisation d’un anti-androgènes de seconde génération : l’Enzalutamide. Cette molécule perturbe l’interaction entre le récepteur des androgènes et son ligand, elle peut bloquer la translocation nucléaire du récepteur activé mais elle empêche aussi son interaction avec l’ADN. Bien que l’utilisation de l’Enzalutamide ait contribué à améliorer la survie des patients, son utilisation conduit à l’émergence d’une résistance à l’Enzalutamide, ce qui constitue un défi thérapeutique considérable.L’objectif principal de mes travaux de thèse est d’identifier de nouvelles protéines afin d’améliorer les effets thérapeutiques de l’Enzalutamide ou de surmonter la résistance à ce médicament. Ainsi dans notre étude, nous avons supposé que le traitement à l’Enzalutamide induit l’activation de voies de signalisation spécifiques, pouvant être impliquées soit dans le mécanisme d’action du médicament ou dans la résistance à ce dernier. Cette hypothèse nous a conduit à l’identification des protéines MAPKs p38, qui sont activées lors d’un traitement avec l’Enzalutamide. Nos résultats démontrent que la combinaison d’Enzalutamide et d’inhibiteur de la MAPK p38 a un effet antitumoral significatif aussi bien in vitro que in vivo. Le mécanisme d’action de cet effet cytotoxique et synergique reste à l’étude. Ces données permettraient d’approfondir la compréhension des mécanismes de résistance lors d’un traitement à l’Enzalutamide et contribuer à la potentialisation de l’effet thérapeutique de cet antiandrogènes. / In France, prostate cancer is the most frequently diagnosed male cancer and its progression is tightly associated with the androgen signals. One of the major treatments for prostate cancer is androgen deprivation therapy which is based on blocking the production or action of the androgens to induce a tumor growth inhibition. Most patients respond to this therapy, however they still reach a castration-resistant stage which is associated with a poor prognosis. Since the progression till this late cancer stage is still driven by the androgen signaling pathway, the second-line therapy is focused on targeting the active androgen receptor by using a second-generation anti-androgens: the Enzalutamide. This molecule disrupts the interaction between the androgen receptor and its ligand, it can block the nuclear translocation of the receptor and it also prevents the receptor interaction with DNA. Although Enzalutamide treatment has enhance the patient survival, some drug resistance still arises which is a considerable therapeutic challenge.The main objective of my thesis is to identify new proteins in order to improve the therapeutic effects of Enzalutamide or to overcome resistance to this drug. Thus, in our study, we assumed that Enzalutamide treatment induces the activation of specific signaling pathways which may be involved in the cancer cell response to the treatment. This hypothesis led us to identify the MAPKs p38 proteins, which are activated during treatment with Enzalutamide. Our results show that the combination of Enzalutamide and p38 inhibitor has a significant antitumor effect both in vitro and in vivo. The mechanism of action of this cytotoxic and synergistic effect remains under study. These data would allow a better understanding of the Enzalutamide resistance mechanisms and contribute to the enhancement of the therapeutic effect of this anti-androgen. Cancer de la prostate Résistance aux traitements Nouvelles cibles Synergie MAPK p38 Prostate cancer Drug resistance New therapeutic targets Synergy P38 mapk
54	Vliv acyklických nukleosidfosfonátů PMEG a PMEDAP na p38 kinasovou signalizaci v lidských leukemických buňkách / The influence of acyclic nucleotide phosphonates PMEG and PMEDAP on p38 kinase signaling in human leukemic cells Nejedlá, Michaela January 2010 (has links) PMEG [9-(2-phosphonomethoxyethyl)guanine] and PMEDAP [9-phosphonomethoxy- ethyl)-2,6-diaminopurine] are acyclic nucleoside phosphonates possessing cytotoxic properties. Antiproliferative effect of PMEG was demonstrated in various tumor cell lines in vitro. PMEG also represents an active component of some experimental prodrugs with enhanced selectivity and efficacy (such as GS-9219). PMEDAP seems to have weaker effect in vitro compared to PMEG, however it exhibited pronounced antitumor effect in SD-rats with spontaneous lymphoma. Therefore it was included in the present study as well. The aim of this study was to describe the interactions of PMEG and PMEDAP with p38 MAP kinase signaling and its relationship to the apoptosis. We investigated the influence of these compounds on the expression of four genes encoding p38 MAPK isoforms and whether this change is translated into the protein. It was found that PMEG up-regulates p38β and γ mRNA in CCRF-CEM cells and p38 β and δ in HL-60 cells. The effect of PMEDAP was less pronounced than that of PMEG. However, total p38 protein level remained unaffected by PMEG and PMEDAP. Activation of p38 MAPK cascade was also measured in the cells exposed to these agents using phospho-specific antibodies. We found that neither PMEG nor PMEDAP activated p38 kinase...
55	Participação de proteínas tirosina quinase ativada por mitógenos (MAPKs) na indução do fator inibidor de leucemia (LIF) em células estromais da medula óssea de crianças com sindromes mielodisplásicas (SMD) / Participation of protein tyrosine kinase activated by mitógenos (MAPKs) in the induction of the inhibitory factor for leukemia (LIF) stromal cells in the bone marrow of children with Myelodysplastic Syndromes (MDS) Costa, Simone Vieira da 22 September 2008 (has links) Em nosso trabalho anterior mostramos que dentre as citocinas analisadas, os níveis do mRNA de LIF nas células estromais pediátricas, de SMD e de SMD-LMA foram maiores quando comparados às células estromais de crianças saudáveis. No presente estudo, observamos um aumento tempo dependente nos níveis da proteína LIF após adição de SFB em todas as células analisadas (células estromais de crianças saudáveis, de SMD e de SMD-LMA). O envolvimento de p38, ERK e JNK na expressão LIF nestas células foi determinado pelo uso de inibidores dos membros das proteínas quinase ativadas por mitógenos: ERK (PD98059), p38 (SB302580) e JNK (SP600125) os quais inibiram a produção de LIF nas células estromais de crianças saudáveis, após estas serem estimuladas por SFB. No entanto, os níveis da expressão de LIF-induzido por soro nas células estromais de SMD e de SMD-LMA tratadas com SB302580 (p38) foram significativamente diminuídos, em comparação com a inibição observada no tratamento com PD98059 e SP600125 (p <0001, teste ANOVA). Em adição analisamos as formas fosforiladas de p38 e ERK, após 48hs na ausência ou na presença de soro por diferentes tempos. Níveis de atividade de ERK e do p38 foram inicialmente elevados na ausência de soro. A atividade de p38 foi sustentada após tratamento com SFB, entretanto, ERK apresentou uma variação de atividade durante o tratamento. Sugerimos que a sinalização das MAPKs (p38, ERK e JNK), em resposta a fatores de crescimento presentes no soro, parece desempenhar um papel importante na expressão da LIF em células estromais de crianças saudáveis, mas a sinalização do p38 parece ser funcionalmente mais importante nas mielodisplasias ou naquelas associadas à LMA / Our previous report showed that among the cytokines analysed, LIF mRNA levels in stromal cells from pediatric MDS and MDS-AML were higher as compared to those found in healthy stromal cells. In the present study, we have observed an increased protein LIF levels in a time dependent manner after FCS stimulation in all stromal cells analysed (MDS, MDS-AML and healthy children) and the involvement of p38, ERK and JNK pathways in the LIF expression in these cells was determined. In stromal cells from two healthy children, LIF production was equally inhibited in a dose dependent manner after FCS stimulation by mitogen-activated protein kinase (MAPKs) members inhibitors: ERK (PD98059), p38 (SB302580) and JNK (SP600125). However, in MDS and MDS-AML stromal cells, the levels of LIF-induced by serum, were significantly decreased by SB302580, as compared with the inhibition observed by treatment with PD98059 and SP600125 (p <0,001, ANOVA test). In addition we have analysed the presence of p38 and ERK phosphorylated forms in stromal cells, after 48hs of serum starvation or in the presence of FCS for different times. Activated ERK and p38MAPK levels were initially elevated in the absence of serum. p38MAPK activation was sustained after treatment with FCS, whereas ERK presented a variation of the activated forms during treatment. We suggest that the signalling of the MAPKs (p38, ERK and JNK) in response to growth factors present in the serum, seems to play an important role in the LIF expression by stromal cells of healthy children, but p38 MAPK signalling appears to be functionally more important in MDS and MDS-AML Bone marrow stromal cells Células estromais da medula óssea Fator inibidor de leucemia (LIF) Leukemia factor inhibitor (LIF) MAPK MAPKs p38 p38 Pediatric myelodysplastic syndromes Síndrome mielodisplásica infantil
56	L'expression de nestine est associée à l'entrée des cardiomyocytes de rats néonataux dans le cycle cellulaire Méus, Marc-André 08 1900 (has links) No description available. Infarctus du myocarde Protéine kinase C p38 MAPK régénération cardiaque Myocardial infarction Protein kinase C p38 MAPK Cardiac regeneration
57	Participação de proteínas tirosina quinase ativada por mitógenos (MAPKs) na indução do fator inibidor de leucemia (LIF) em células estromais da medula óssea de crianças com sindromes mielodisplásicas (SMD) / Participation of protein tyrosine kinase activated by mitógenos (MAPKs) in the induction of the inhibitory factor for leukemia (LIF) stromal cells in the bone marrow of children with Myelodysplastic Syndromes (MDS) Simone Vieira da Costa 22 September 2008 (has links) Em nosso trabalho anterior mostramos que dentre as citocinas analisadas, os níveis do mRNA de LIF nas células estromais pediátricas, de SMD e de SMD-LMA foram maiores quando comparados às células estromais de crianças saudáveis. No presente estudo, observamos um aumento tempo dependente nos níveis da proteína LIF após adição de SFB em todas as células analisadas (células estromais de crianças saudáveis, de SMD e de SMD-LMA). O envolvimento de p38, ERK e JNK na expressão LIF nestas células foi determinado pelo uso de inibidores dos membros das proteínas quinase ativadas por mitógenos: ERK (PD98059), p38 (SB302580) e JNK (SP600125) os quais inibiram a produção de LIF nas células estromais de crianças saudáveis, após estas serem estimuladas por SFB. No entanto, os níveis da expressão de LIF-induzido por soro nas células estromais de SMD e de SMD-LMA tratadas com SB302580 (p38) foram significativamente diminuídos, em comparação com a inibição observada no tratamento com PD98059 e SP600125 (p <0001, teste ANOVA). Em adição analisamos as formas fosforiladas de p38 e ERK, após 48hs na ausência ou na presença de soro por diferentes tempos. Níveis de atividade de ERK e do p38 foram inicialmente elevados na ausência de soro. A atividade de p38 foi sustentada após tratamento com SFB, entretanto, ERK apresentou uma variação de atividade durante o tratamento. Sugerimos que a sinalização das MAPKs (p38, ERK e JNK), em resposta a fatores de crescimento presentes no soro, parece desempenhar um papel importante na expressão da LIF em células estromais de crianças saudáveis, mas a sinalização do p38 parece ser funcionalmente mais importante nas mielodisplasias ou naquelas associadas à LMA / Our previous report showed that among the cytokines analysed, LIF mRNA levels in stromal cells from pediatric MDS and MDS-AML were higher as compared to those found in healthy stromal cells. In the present study, we have observed an increased protein LIF levels in a time dependent manner after FCS stimulation in all stromal cells analysed (MDS, MDS-AML and healthy children) and the involvement of p38, ERK and JNK pathways in the LIF expression in these cells was determined. In stromal cells from two healthy children, LIF production was equally inhibited in a dose dependent manner after FCS stimulation by mitogen-activated protein kinase (MAPKs) members inhibitors: ERK (PD98059), p38 (SB302580) and JNK (SP600125). However, in MDS and MDS-AML stromal cells, the levels of LIF-induced by serum, were significantly decreased by SB302580, as compared with the inhibition observed by treatment with PD98059 and SP600125 (p <0,001, ANOVA test). In addition we have analysed the presence of p38 and ERK phosphorylated forms in stromal cells, after 48hs of serum starvation or in the presence of FCS for different times. Activated ERK and p38MAPK levels were initially elevated in the absence of serum. p38MAPK activation was sustained after treatment with FCS, whereas ERK presented a variation of the activated forms during treatment. We suggest that the signalling of the MAPKs (p38, ERK and JNK) in response to growth factors present in the serum, seems to play an important role in the LIF expression by stromal cells of healthy children, but p38 MAPK signalling appears to be functionally more important in MDS and MDS-AML Células estromais da medula óssea Fator inibidor de leucemia (LIF) MAPK p38 Síndrome mielodisplásica infantil Bone marrow stromal cells Leukemia factor inhibitor (LIF) MAPKs p38 Pediatric myelodysplastic syndromes
58	Évaluation de deux stratégies pour contrôler le comportement de cellules d'ostéosarcome humain : utilisation d'un alcoloïde ou de facteurs de croissance / Evaluation of two strategies to control human osteosarcoma cell behaviour : using plant-derived alkaloid of growth factors Park, Hyunjin January 2012 (has links) Résumé : Les ostéosarcomes sont des tumeurs malignes osseuses primaires qui affectent principalement les enfants et les adolescents. Les thérapies utilisées depuis les 30 dernières années n'ont malheureusement eu que très peu d'effet sur la survie des patients. Ce projet de doctorat évalue deux stratégies pour contrer certaines dérégulations des cellules d'ostéosarcome humain. La première consiste à abolir leur résistance à l'apoptose avec un alcaloïde d'origine végétale. La seconde consiste à accroître leur différenciation ou à réduire leur prolifération en utilisant des protéines morphogénétiques osseuses (BMPs) et leurs peptides dérivés (pBMPs). La première partie de ce doctorat s'intéresse donc au comportement et à la régulation des cellules d'ostéosarcome en comparaison avec celui des cellules osseuses normales afin d'identifier des cibles potentielles. Elle met l'accent sur trois caractéristiques de l'ostéosarcome: la résistance à l'apoptose, la prolifération incontrôlée des cellules et leur différenciation défectueuse. La sanguinarine, un alcaloïde d'origine végétale, est déjà utilisée pour traiter plusieurs types de cancers (sein et colon). Cet alcaloïde a été choisi pour vaincre la résistance à l'apoptose des cellules d'ostéosarcome. La sanguinarine a éradiqué les deux lignées cellulaires humaines d'ostéosarcome, MG-63 et SaOS-2, d'une manière dépendante du temps et de la dose. Les deux lignées cellulaires se distinguent par des états de différenciation et des taux de prolifération différents. L'alcaloïde induit l'apoptose par les voies extrinsèque et intrinsèque en activant les caspases-8 et -9. La sanguinarine semble agir sur les cellules d'ostéosarcome en fonction de leur potentiel tumorigène. La BMP-2, la BMP-9 et leurs peptides dérivés, pBMP-2 et pBMP-9, ont été utilisés pour contrer la différenciation défectueuse ou la prolifération incontrôlée des cellules d'ostéosarcome. La BMP-2, la BMP-9 et le pBMP-9 activent la phosphorylation des Smads dans les deux lignées cellulaires MG-63 et SaOS-2. Le pBMP-2 n'a eu aucun effet sur ces cellules d'ostéosarcome. Alors que le pBMP-9 agit sur la voie canonique des BMPs, il n'a cependant eu aucun effet significatif sur l'expression des gènes des marqueurs ostéogéniques à 6h. La BMP-2 induit essentiellement la phosphorylation de ERK 112, tandis que la BMP-9 et le pBMP-9 activent la voie p38. De plus, un inhibiteur de MEK1 bloque complètement l'augmentation de la phosphorylation de ERK1/2 induite par la BMP-2 et renforce la phosphorylation de la p38 en présence de BMP-9 ou du pBMP-9. Le traitement avec la BMP-2 ou la BMP-9 et l'inhibiteur MEKI augmente l'expression de gènes codant pour des marqueurs ostéogéniques précoces dans les cellules SaOS-2, tout en inhibant la croissance des cellules MG-63. Ainsi, la sanguinarine ou les BMPs en combinaison avec un inhibiteur MEKI pourraient donner lieu à un traitement anti-cancéreux prometteur. D'autres expériences sont néanmoins nécessaires pour déterminer leurs effets sur les cellules souches cancéreuses. // Abstract : Osteosarcomas are malignant primary bone tumours that normally occur in children and adolescents. Currently used therapies have not measurably improved patient survival rates over the last 30 years. This doctoral research evaluates two strategies for overcoming the major features of osteosarcoma cells. One is to abolish their resistance to apoptosis with a plant-derived alkaloid. The other is to block their defective differentiation or uncontrolled proliferation with bone morphogenetic proteins (BMPs) and peptides derived from them (pBMPs). The first part of this thesis compares the behaviour and regulation of osteosarcoma cells and normal bone cells to identify potential targets. It focuses on three features of osteosarcoma: resistance to apoptosis, uncontrolled cell proliferation, and defective cell differentiation. The plant-derived alkaloid, sanguinarine, is already used to treat several cancers (breast and colon). It was selected to overcome the resistance of osteosarcoma cells to apoptosis. Sanguinarine killed both MG-63 and SaOS-2 human osteosarcoma cells in a time- and dose-dependent manner. These two cell lines have different differentiation states and proliferate at different rates. The alkaloid induces apoptosis through the extrinsic and intrinsic pathways, activating both caspases-8 and -9. Sanguinarine seems to act on osteosarcoma cells depending on their tumourigenic potential. BMP-2, BMP-9, and their derived peptides, pBMP-2 and pBMP-9, were used to overcome the defective differentiation or uncontrolled proliferation of osteosarcoma cells. BMP-2, BMP-9, and pBMP-9 activated the phosphorylation of Smad in both MG-63 and SaOS-2 cells. pBMP-2 had no effect on osteosarcoma cells. While pBMP-9 acted on the canonical BMP pathway, it had no significant effect on the expression of genes encoding osteogenic markers at 6h. BMP-2 mainly increased the phosphorylation of ERK1 /2, while BMP-9 and pBMP-9 activated the p38 pathway. A MEKI inhibitor completely blocked the BMP-2-triggered increase in ERK1/2 phosphorylation and enhanced the phosphorylation of p38 induced by BMP-9 or pBMP-9. Treatment with BMP-2 or BMP-9 and MEKI inhibitor increased the the expression of genes encoding osteogenic markers in SaOS-2 cells, while inhibiting the growth of MG-63 cells. Thus, sanguinarine or BMPs plus a MEK I inhibitor could give rise to a promising anti-cancer treatment. Further experiments are now required to determine their effect on cancer stem cells. Smad Sanguinarine P38 ERK1/2 Différenciation Protéines morphogénétiques osseuses Apoptose
59	Inflammatory responses of gingival fibroblasts in the interaction with the periodontal pathogen Porphyromonas gingivalis Palm, Eleonor January 2015 (has links) No description available. Porphyromonas gingivalis fibroblasts CXCL8 TGF-β1 IL-6 SLPI IDO c-JUN PKC p38 periodontitis
60	Glycogen Synthase Kinase-3β: An Investigation Of The Novel Serine 389 Phosphorylation Site Hare, Brendan Deegan 01 January 2015 (has links) Stress associated psychiatric disorders such as depression, anxiety, and post-traumatic stress disorder affect a large proportion of the population. Reductions in the complexity of neuronal morphology and reduced neurogenesis are commonly observed outcomes following stress exposure in rodent models and may represent a mechanism for the reduced brain volume in stress sensitive regions such as the hippocampus observed in individuals diagnosed with stress associated disorders. Multiple lines of evidence suggest that glycogen synthase kinase (GSK)-B may play a role in the neurodegenerative phenotype observed following stress exposure. GSK3B is atypical in that it is inhibited by phosphorylation. This inhibitory phosphorylation has typically been studied by examining the phosphorylation state of the serine 9 (S9) site. Inhibition of GSK3B is implicated in synaptic stabilization, increased expression of trophic factors that support dendritic complexity and neurogenesis, reduced apoptosis, and the antidepressive effects of currently implemented therapeutics. It is surprising then that little research has examined the regulation of GSK3B by stress. A novel GSK3B phosphorylation site, serine 389 (S389), has recently been described that is regulated by p38 mitogen activated protein kinase (MAPK) and is independent of S9 phosphorylation by AKT. p38 MAPK is implicated in the behavioral effects of stress exposure making an understanding of its interaction with GSK3B S389 phosphorylation during stress a compelling research target. The current studies examine GSK3B regulation following variate stress exposure in stress reactive brain regions, describe the anatomical specificity of GSK3B S389 phosphorylation in the brain, and detail the behavioral phenotype of a novel mutant mouse that cannot inhibit GSK3B by S389 phosphorylation (GSK3B KI). Region specific changes in GSK3B phosphorylation were observed following stress exposure, as well as voluntary exercise, a behavior that confers stress resistance. Elevated GSK3B S389 phosphorylation was associated with increased levels of phosphorylated p38 MAPK. This pathway is implicated in the response to DNA damage, and, surprisingly, we observed that histone H2A-variant-X (H2A.X), a marker of DNA damage, was elevated following stress and exercise. Accumulated DNA damage is a proposed driver of neurodegeneration suggesting that the pathway activated by stress may be engaged to protect against such decline. Consistent with a role in the response to DNA damage, we observed a primarily nuclear localization of GSK3B S389 phosphorylation in the brain while S9 phosphorylation was found in nuclear and cytosolic compartments. Further, we observed neurodegeneration in hippocampal and cortical regions of GSK3B KI mice supporting the idea that the inhibition of GSK3B by S389 phosphorylation observed following stress and exercise may be protective. Though largely similar to wild type mice in behavioral tests, increased auditory fear conditioning was evident in GSK3B KI mice. Contextual and cued freezing was prolonged in GSK3B KI mice, a phenotype that is commonly observed in stress models. Together these findings suggest that GSK3B S389 phosphorylation is playing a critical role in neuronal integrity that is independent of GSK3B S9 phosphorylation, and that the subset of neurons protected by GSK3B S389 phosphorylation may play an important role in preventing a portion of the maladaptive behavioral changes observed following stress exposure. Anxiety Depression Exercise Glycogen Synthase Kinase p38 MAPK Stress Neurosciences Psychology

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