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Conséquences traductionnelles de la perte de 4E-BP1 dans l'adénocarcinome pancréatique / Translational consequences of 4E-BP1 loss in pancreatic cancerMüller, David 30 September 2016 (has links)
L'adénocarcinome pancréatique est la 4ème cause de décès liés aux cancers dans les pays occidentaux et constitue un véritable défi, tant l'absence de traitement curatif assombrit son pronostic. Les récurrents échecs des thérapies ciblées soulignent la particularité de sa physiopathologie vis-à-vis des autres cancers et la nécessité d'identifier de nouvelles cibles thérapeutiques. La mutation activatrice de l'oncogène KRAS, considérée comme l'événement initiateur de la carcinogenèse pancréatique, est retrouvée dans plus de 90% des cas. L'activation consécutive des voies de signalisation MAPK et PI3K amorce la transformation tumorale et constitue un trait caractéristique du cancer pancréatique. Si la synthèse protéique est altérée dans de nombreux cancers, elle semble jouer un rôle encore plus important dans le cancer du pancréas, puisqu'elle se situe au carrefour de voies fortement activées. Les altérations des facteurs régulant l'initiation sont majoritaires, et ont pour but de détourner la machinerie traductionnelle, à l'avantage de la cellule cancéreuse. Si la cellule cancéreuse présente un niveau de synthèse protéique globalement élevé, l'augmentation sélective de la traduction de certains ARNm semble définir des comportements propres aux différents types de cancers. L'adénocarcinome pancréatique est caractérisé par une perte d'expression du répresseur traductionnel 4E-BP1 dès les stades précoces de la transformation, qui n'est observée dans aucun autre cancer. L'objectif de ces travaux était de mettre en évidence les processus cellulaires affectés par la perte de 4E-BP1, ainsi que leurs conséquences sur le développement du cancer pancréatique. Mes résultats démontrent que si l'absence de 4E-BP1 est favorable à la régénération tissulaire dans le contexte de la pancréatite, elle confère un avantage prolifératif aux cellules cancéreuses pancréatiques exprimant KRAS muté, en favorisant leur réplication. Cette faculté est acquise au travers d'une dérégulation de la synthèse d'effecteurs décisifs pour l'entrée en phase S et l'initiation de la réplication. Ceci suggère que la perte de 4E-BP1 pourrait constituer un mécanisme de résistance à la chimiothérapie en favorisant la réplication des cellules cancéreuses. En effet l'amorçage de nouveaux foyers de réplication pourrait permettre d'échapper à l'incorporation d'analogues toxiques de nucléosides tels que la gemcitabine. L'utilisation d'inhibiteurs de la traduction pourrait ainsi constituer une nouvelle approche thérapeutique, en bloquant la réplication et en potentialisant l'effet de la chimiothérapie. / Pancreatic ductal adenocarcinoma (PDAC) is the 4th cause of cancer-related deaths in western countries with a 5-years overall survival of 5% that has not improved for years. The lack of bona fide curative therapeutics brings major challenges for the development of tailored therapies. Recent clinical failures remind the particular pathophysiology of PDAC compared to other cancers and the need for new strategies to be uncovered. Mutated KRAS is considered to be the initial event in the onset of pancreatic carcinogenesis, and is found in more than 90% of cases. Consequent activation of MAPK and PI3K signaling pathways primes transformation and is particularly significant in PDAC. While protein synthesis is altered in several cancers, it seems to be highly contributive to pancreatic carcinogenesis, as it stands at the junction of hyperactivated pathways. Alterations in initiation factors are the most common, and lead to a "hijack" of the translation machinery to the advantage of the cancer cell. While global translation rates are generally higher in cancer cells, specialized cancer behaviors seem to rely on the specific translation of subsets of mRNAs. PDAC is characterized by a loss of the translational repressor 4E-BP1 that happens early in the transformation process, and which seems specific of this malignancy. Our results demonstrate that while 4E-BP1 deficiency improves tissue regeneration in the context of pancreatitis, this confers proliferative advantage to pancreatic cancer cells expressing mutated KRAS through increased replication. This ability is acquired through enhanced synthesis of effectors involved in S phase entry and replication initiation. Those results suggest that 4E-BP1 loss may serve as a mechanism of resistance to chemotherapy, by promoting cancer cells replication. Priming of new replication foci could be an escape from incorporation of toxic nucleosides such as gemcitabine. The use of translation inhibitors might be a novel therapeutic approach through replication blocking and chemotherapy potentiation.
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mTOR Pathway Activation Following Sciatic Stimulation in Wild-Type and Desmin Knockout MiceNelson, Daniel S. 13 December 2012 (has links) (PDF)
The 52 kDa intermediate filament protein desmin plays an important role in force transmission in skeletal muscle by connecting myofibrils at Z-lines and to the sarcolemma. Desmin content in muscle adapts to contractile activity and may be involved in cellular signaling mechanisms responsible for muscle growth. Purpose: To compare signaling responses of the mTOR pathway in wild type (WT) vs desmin knock out (KO) mice. Methods: WT (n=12) and KO (n=12) mice were exposed to high frequency electric stimulation of the left hindlimb to elicit an acute response of the mTOR pathway. Non-stimulated right hindlimbs were used as a within animal control. Right and left TA and EDL muscles were dissected 30 min post-stimulation and examined for changes in mTOR, 4E-BP1 and p70S6K. Results: Relative to WT control samples, total mTOR and total 4E-BP1 content was higher in KO control samples. Electrical stimulation resulted in an increase p70S6K phosphorylation in WT and KO animals however there was no difference between the groups. 4E-BP1 phosphorylation was increased in WT but not KO following electrical stimulation. There was no change in mTOR phosphorylation in response to stimulation in WT or KO. Conclusion: The absence of desmin in skeletal muscle does not impair the phosphorylation of p70S6K demonstrating that a tensile load on the muscle will likely result in an increase in protein synthesis. Elevated levels of total mTOR and 4E-BP1 may imply an adaptation to increase sensitivity to growth stimuli in the muscle.
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Estudo do controle traducional de PPAR durante o processo de diferenciação de macrófagos / Translation control of PPAR during macrophage differentiationCambiaghi, Tavane David 12 February 2010 (has links)
A diferenciação das células THP-1 em macrófagos, induzida por PMA, é associada ao aumento da expressão de PPAR. A UTR 5` de PPAR regula negativamente sua síntese, porém, o mecanismo molecular envolvido não foi esclarecido. Neste estudo, o estado traducional das células THP-1 diferenciadas por PMA foi investigado em associação à superprodução de PPAR. A presença de uORFs no transcrito de PPAR, contendo códons de iniciação compatíveis com seqüências de Kosak, poderia ser a causa do efeito inibitório da UTR 5`. A incorporação reduzida de L-[U-14C]leucina revelou que a superprodução de PPAR ocorre durante inibição global da tradução, confirmada pela redução dos polissomos. Além disso, desfosforilação de 4E-BP1 foi observada após tratamento com PMA e é associada a inibição da iniciação da tradução e estimulação da tradução dependente de IRES. De fato, a estrutura da UTR 5` de PPAR apresenta características de transcritos que formam IRES. Assim, a produção de PPAR pode ser regulada por IRES e ocorre concomitantemente com a inibição da tradução dependente de cap / The differentiation of THP-1 cells in macrophages, induced by PMA, is associated to overexpression of PPARb. Previous studies have shown that the PPARb 5\' UTR negatively regulates its expression. In our study the translational status of PMA-differentiated THP-1 cells was investigated in association to PPARb overexpression. Putative compatible Kosak initiation codons were identified in the PPARb uORFs and could be involved in the inhibitory effect of 5\' UTR. Decreased incorporation of L-[U-14C]leucine in proteins revealed that the overproduction of PPARb in PMA-differentiated THP-1 cells coincides with a global decrease in the protein synthesis process. Translation impairment was confirmed by polysome profile assay. An intense dephosphorylation of 4E-BP by PMA treatment was observed. Dephosphorylated 4E-BP causes inhibition of eIF4E cap-dependent translation initiation and favors IRES-dependent translation. The PPARb 5\' UTR structure has some characteristics that resemble the one described for IRES. Therefore, the PPARb production may be controlled by IRES
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Estudo do controle traducional de PPAR durante o processo de diferenciação de macrófagos / Translation control of PPAR during macrophage differentiationTavane David Cambiaghi 12 February 2010 (has links)
A diferenciação das células THP-1 em macrófagos, induzida por PMA, é associada ao aumento da expressão de PPAR. A UTR 5` de PPAR regula negativamente sua síntese, porém, o mecanismo molecular envolvido não foi esclarecido. Neste estudo, o estado traducional das células THP-1 diferenciadas por PMA foi investigado em associação à superprodução de PPAR. A presença de uORFs no transcrito de PPAR, contendo códons de iniciação compatíveis com seqüências de Kosak, poderia ser a causa do efeito inibitório da UTR 5`. A incorporação reduzida de L-[U-14C]leucina revelou que a superprodução de PPAR ocorre durante inibição global da tradução, confirmada pela redução dos polissomos. Além disso, desfosforilação de 4E-BP1 foi observada após tratamento com PMA e é associada a inibição da iniciação da tradução e estimulação da tradução dependente de IRES. De fato, a estrutura da UTR 5` de PPAR apresenta características de transcritos que formam IRES. Assim, a produção de PPAR pode ser regulada por IRES e ocorre concomitantemente com a inibição da tradução dependente de cap / The differentiation of THP-1 cells in macrophages, induced by PMA, is associated to overexpression of PPARb. Previous studies have shown that the PPARb 5\' UTR negatively regulates its expression. In our study the translational status of PMA-differentiated THP-1 cells was investigated in association to PPARb overexpression. Putative compatible Kosak initiation codons were identified in the PPARb uORFs and could be involved in the inhibitory effect of 5\' UTR. Decreased incorporation of L-[U-14C]leucine in proteins revealed that the overproduction of PPARb in PMA-differentiated THP-1 cells coincides with a global decrease in the protein synthesis process. Translation impairment was confirmed by polysome profile assay. An intense dephosphorylation of 4E-BP by PMA treatment was observed. Dephosphorylated 4E-BP causes inhibition of eIF4E cap-dependent translation initiation and favors IRES-dependent translation. The PPARb 5\' UTR structure has some characteristics that resemble the one described for IRES. Therefore, the PPARb production may be controlled by IRES
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Effect of Fatty Acids and Insulin on Syncytin-1 and 4E-BP1 in Skeletal MuscleJanuary 2017 (has links)
abstract: Obesity impairs skeletal muscle maintenance and regeneration, a condition that can progressively lead to muscle loss, but the mechanisms behind it are unknown. Muscle is primarily composed of multinucleated cells called myotubes which are derived by the fusion of mononucleated myocytes. A key mediator in this process is the cellular fusion protein syncytin-1. This led to the hypothesis that syncytin-1 could be decreased in the muscle of obese/insulin resistant individuals. In contrast, it was found that obese/insulin resistant subjects had higher syncytin-1 expression in the muscle compared to that of the lean subjects. Across the subjects, syncytin-1 correlated significantly with body mass index, percent body fat, blood glucose and HbA1c levels, insulin sensitivity and muscle protein fractional synthesis rate. The concentrations of specific plasma fatty acids, such as the saturated fatty acid (palmitate) and monounsaturated fatty acid (oleate) are known to be altered in obese/insulin resistant humans, and also to influence the protein synthesis in muscle. Therefore, it was evaluated that the effects of palmitate and oleate on syncytin-1 expression, as well as 4E-BP1 phosphorylation, a key mechanism regulating muscle protein synthesis in insulin stimulated C2C12 myotubes. The results showed that treatment with 20 nM insulin, 300 µM oleate, 300 µM oleate +20 nM insulin and 300 µM palmitate + 300 µM oleate elevated 4E-BP1 phosphorylation. At the same time, 20 nM insulin, 300 µM palmitate, 300 µM oleate + 20 nM insulin and 300 µM palmitate + 300 µM oleate elevated syncytin-1 expression. Insulin stimulated muscle syncytin-1 expression and 4E-BP1 phosphorylation, and this effect was comparable to that observed in the presence of oleate alone. However, the presence of palmitate + oleate diminished the stimulatory effect of insulin on muscle syncytin-1 expression and 4E-BP1 phosphorylation. These findings indicate oleate but not palmitate increased total 4E-BP1 phosphorylation regardless of insulin and the presence of palmitate in insulin mediated C2C12 cells. The presence of palmitate inhibited the upregulation of total 4EB-P1 phosphorylation. Palmitate but not oleate increased syncytin-1 expression in insulin mediated C2C12 myotubes. It is possible that chronic hyperinsulinemia in obesity and/or elevated levels of fatty acids such as palmitate in plasma could have contributed to syncytin-1 overexpression and decreased muscle protein fractional synthesis rate in obese/insulin resistant human muscle. / Dissertation/Thesis / Masters Thesis Biology 2017
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mTOR Pathway Activation Following Resistance Exercise with Vibration in Human SubjectsLeavitt, Michael G. 07 March 2013 (has links) (PDF)
Functional adaptations in human skeletal muscle following a period of resistance exercise are the result of regular activation of cellular signaling pathways that elevate muscle protein synthesis. It has been reported that the addition of whole body vibration (WBV) to a resistance exercise program enhances performance. Such improvements in muscle function may be the result of increased activation of cellular signaling pathways associated with muscle growth. Purpose: We have investigated whether an acute bout of resistance exercise in combination with WBV results in a greater activation of the mTOR signaling pathway compared to resistance exercise alone. Methods: Eight untrained college-age males (23 ± 2 yrs, 179 ± 1 cm, 75.0 ± 2.5 kg, and 12.6 ± 1.8% body fat) performed unilateral leg press exercises with (Vbx) and without (RT) vibration. Muscle samples were obtained from the vastus lateralis muscle pre-exercise (baseline) and one-hour following the bout of resistance exercise. Muscle tissue samples were analyzed for phosphorylated levels of mTOR, p70S6K, and 4E-BP1 proteins. Results: One-hour following the resistance exercise bout there were no differences between phosphorylated levels of mTOR or 4E-BP1 in Vbx or RT (p > 0.05). Levels of phosphorylated p70S6K were increased at the one-hour post-exercise time-point in both Vbx (baseline: 504 ± 286 OD; post: 5039 ± 2351 OD, p < 0.05) and RT (baseline: 356 ± 131 OD; post: 5430 ± 1218 OD, p < 0.05); however, there was no difference in protein phosphorylation levels between conditions (p > 0.05). Conclusion: Vibration does not augment acute activation of the mTOR signaling pathway in human skeletal muscle suggesting that performance benefits resulting from combining resistance exercise and vibration may not be the result of an enhanced cellular growth response.
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Mammalian Target of Rapamycin Signaling and the Suprachiasmatic Circadian ClockCao, Ruifeng 14 December 2010 (has links)
No description available.
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Le rôle des acides aminés dans le métabolisme protéique du foie sous régime hyper protéique : identification du signal des acides aminés et des voies de transduction associéesChotechuang, Nattida 22 March 2010 (has links) (PDF)
La consommation d'un régime hyper protéique (HP) améliore l'homéostasie glucidique, le gain de poids, l'adiposité, en réduisant le tissus adipeux blanc et la taille des adipocytes. Les adaptations métaboliques dues à l'augmentation de l'apport protéique sont au moins caractérisées, au niveau du foie, par la diminution de la lipogenèse et l'augmentation de la conversion des acides aminés (AA) en glycogène. Cependant, le rôle des acides aminés dans le contrôle de ces adaptations métaboliques et des voies de transduction responsables de la transmission du signal " acides aminés " n'ont pas encore été élucidés. L'objectif de notre étude a été de déterminer l'effet de l'augmentation de l'apport en acides aminés sur la traduction et la protéolyse, et d'identifier les voies de signalisation impliquées dans la détection des acides aminés ainsi que l'acide aminé ou le groupe d'acide aminés responsable de ces effets, en utilisant des approches in vivo et in vitro. Les extraits protéiques ont été analysés par western blots pour examiner l'état de phosphorylation des protéines impliquées dans les voies de signalisation qui participent à la détection des AAs et à la régulation de la traduction, à savoir les voies: " mammalian target of rapamycin " (mTOR), " adenosine monophosphate-activated protein kinase " (AMPK) et " general control non-depressible kinase 2 " (GCN2). Cette étude a montré que l'adaptation à un régime de HP est caractérisée par la stimulation de la traduction dans le foie, au moins au niveau de l'étape d'initiation. Cette activation requiert à la fois la présence de fortes concentrations en AA (au moins la leucine ou des AAs à chaîne branchée) et d'insuline, comme l'indique l'augmentation de la phosphorylation de mTOR, 4E-BP1 et S6 et la diminution de la phosphorylation de l'AMPK et GCN2. L'utilisation de l'AICAR (activateur de l'AMPK) et de la rapamycine (inhibiteur de mTOR) nous a permis de montrer qu'en présence de fortes concentrations en AA et d'insuline, mTOR n'est pas le seul régulateur de 4E-BP1 et de la S6K1 (cibles de mTOR) et que l'AMPK peut également jouer un rôle important dans la régulation de leur état de phosphorylation. En outre, l'augmentation de l'apport protéique provoque une inhibition de la dégradation des protéines dans le foie et une diminution de l'expression des gènes codant les principales protéines du système autophagie et de l'ubiquitine-protéasome. En conséquence, les protéines sont moins ubiquitinées, donc moins dégradées. Les AAs et l'insuline semblent être les principaux régulateurs de la voie de protéolyse ubiquitine-protéasome et les voies mTOR et AMPK seraient les médiateurs des effets acides aminés et de l'insuline. Ces résultats suggèrent que le contrôle des voies cataboliques et anaboliques du métabolisme des protéines sont régulées par les mêmes signaux et font intervenir les mêmes voies de signalisation.
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Identifikace klíčových regulátorů genové exprese v savčím oocytu a embryu / Identification of key regulators of gene expression in mammalian oocyte and embryoJansová, Denisa January 2017 (has links)
Mammalian oocyte is a highly differentiated cell which gives rise to an embryo after fertilization. Importantly, fully-grown oocytes become transcriptionally inactive at the end of the growth phase. During following stages of development, i. e. meiotic maturation of the oocyte and early embryonic development, only transcripts previously synthesized and stored are used. The tight correlation between mRNA distribution and subsequent protein localization and function provides a mechanism of spatial and temporal regulation of gene expression used by various cell types. However, not much is known about mRNA localization and translation in the mammalian oocyte and early embryo. The aim of my thesis was to determine the localization of transcripts and components of translational machinery in the mammalian oocyte and embryo and to uncover the mechanisms of spatiotemporal regulation of translation as a prerequisite for correct oocyte and embryo development. We have shown that nuclei of both mouse and human oocytes contain RNA molecules and RNA binding proteins. Following the nuclear envelope breakdown (NEBD), translational hot-spots occur in the area surrounding the nuclear region. We suppose that mRNAs previously retained in the nucleus are released to the cytoplasm during NEBD and their subsequent...
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Efeitos da L-glutamina sobre a atividade das vias de sinalização da síntese e degradação de proteínas no músculo esquelético de camundongos e no conteúdo intracelular de aminoácidos em miotubos cultivados. / Effects of L-gultamine on the signaling pathways of protein synthesis and degradation in skeletal muscle and intracellular free aminoacids contente in cultured miotubes.Vasconcelos, Diogo Antonio Alves de 21 May 2015 (has links)
Investigou-se os efeitos da L-glutamina (1g/kg de massa corpórea) em camundongos jejuados por 24 horas. A L-glutamina atenuou a perda de massa muscular e a diminuição da área das fibras musculares esqueléticas causadas pelo jejum via Akt-mTOR. No sóleo, a L-glutamina estimulou a Akt (início da via), e no EDL ativou a S6 (final da via). Investigou-se também os efeitos da L-glutamina em miotubos (C2C12) cultivados por 48 horas. A diminuição de L-glutamina no meio (de 2 para zero mM) causou balanço proteico negativo e aumento do conteúdo dos aminoácidos livres, exceto dos produtos da glutaminólise, indicando estimulação de proteólise. O aumento de L-glutamina no meio (de 2 para 8 e 16 mM) não alterou o conteúdo intracelular de proteínas e dos aminoácidos livres. Na presença de 2 mM de glutamina no meio, a insulina teve efeito positivo no balanço proteico via Akt/mTOR/S6K, estimulando a S6K. Na ausência de glutamina, houve maior fosforilação de eIF2α estimulada por dexametasona e portanto menor síntese proteica. / We investigated the effects of L-glutamine (1g/kg of body mass) on 24 h fasted mice. L-Glutamine attenuated the loss of muscle mass and the reduction of the skeletal muscle fibers area caused by fasting. This attenuation occurred via Akt-mTOR, however, glutamine stimulated Akt (upstream) in the soleus, whereas it activated S6 (dowstream) in EDL. The effects of L-glutamine on myotubes (C2C12) cultured for 48 hours were also examined. The reduction of L-glutamine in the medium (from 2 to zero mM) decreased protein content and increased contents of all amino acids, except products of glutaminolysis, indicating stimulation of proteolysis. The increased L-glutamine levels in the medium (from 2 to 8 and 16 mM) did not change the intracellular contents of protein and free amino acids. In the presence of 2 mM glutamine, insulin had a positive effect on total protein content through Akt/mTOR/S6K pathway, stimulating S6K. In turn, in the absence of L-glutamine, there was increased eIF2α phosphorylation stimulated by dexamethasone and thus less protein synthesis.
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