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Role and Regulation of Autophagy During Developmental Cell Death in <i>Drosophila Melanogaster</i>: A DissertationTracy, Kirsten M. 06 April 2015 (has links)
Autophagy is a conserved catabolic process that traffics cellular components to the lysosome for degradation. Autophagy is required for cell survival during nutrient restriction, but it has also been implicated in programmed cell death. It is associated with several diseases, including cancer. Cancer is a disease characterized by aberrant cell growth and proliferation. To support this growth, the tumor cell often deregulates several metabolic processes, including autophagy. Interestingly, autophagy plays paradoxical roles in tumorigenesis. It has been shown to be both tumor suppressive through cell death mechanisms and tumor promoting through its cytoprotective properties. However, the mechanisms regulating the balance between cell death and cell survival, as well as the metabolic consequences of disrupting this balance, are still poorly understood. Autophagy functions in both cell survival and cell death during the development of Drosophila melanogaster, making it an ideal model for studying autophagy in vivo. My research aimed to better understand the regulation and metabolic contribution of autophagy during cell death in Drosophila. I found that the Ral GTPase pathway, important to oncogenesis, regulates autophagy specifically during cell death in Drosophila larval salivary glands. Contrary to previous studies in mammalian cell culture, Ral is dispensable for autophagy induced during nutrient deprivation suggesting that Ral regulates autophagy in a context-dependent manner. This is the first in vivo evidence of Ral regulating autophagy. I found that disrupting autophagy has an extensive impact on an organism’s metabolism. Additionally, I found that autophagy in degrading tissues is crucial for maintaining the fly’s metabolic homeostasis, and that it may be important for resource allocation amongst tissues. This research highlights the importance of understanding how pathways regulate autophagy in different cell contexts and the metabolic outcomes of manipulating those pathways. This is especially important as we investigate which pathways to target therapeutically in an effort to harness autophagy to promote cell death rather than cell survival.
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Anatomical Expression and Functional Role of the G-Protein Coupled Estrogen Receptor 1 in the Song System of Zebra Finches (Taeniopygia guttata)Attarhaie Tehrani, Mahtab 23 April 2018 (has links)
No description available.
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Acute simulated hypoxia and ischemia in cultured C2C12 myotubes : decreased phosphatidylinositol 3-kinase (PI3K)/Akt activity and its consequences for cell survivalThomas, Mark Peter 12 1900 (has links)
Thesis (MSc (Physiological Sciences))--Stellenbosch University, 2008. / Cells are equipped with an array of adaptive mechanisms to contest the undesirable effects of
ischemia and the associated hypoxia. Indeed, many studies have suggested that there is an
increase in the PI3K/Akt pathway activation during hypoxia and ischemia. Damaged muscle can
be regenerated by recruiting myogenic satellite cells which undergo differentiation and
ultimately lead to the regeneration of myofibres. The C2C12 murine myogenic cell line is
popular for studying myogenesis in vitro, and has been used in many studies of ischemic
microenvironments. PI3K/Akt pathway activity is increased during C2C12 myogenesis and this
is known to produce an apoptosis resistant phenotype. In this study, we provide evidence that
high basal levels of PI3K activity exist in C2C12 myotubes on day ten post-differentiation.
Ischemia is characterized by depleted oxygen and other vital nutrients, and ischemic cell death is
believed to be associated with an increasingly harsh environment where pH levels decrease and
potassium levels increase. By employing a model that mimics these changes in skeletal muscle
culture, we show that both acute simulated ischemia and acute hypoxia cause decreases in
endogenous levels of the p85 and p110 subunits of PI3K and a consequent reduction in PI3K
activity. Supplementing skeletal muscle cultures with inhibitors of the PI3K pathway provides
evidence that the protective effect of PI3K/Akt is subsequently lost in these conditions. Using
Western blot analysis, a PI3K ELISA assay as well as known inhibitors of the PI3K pathway in
conjunction with the MTT assay we are able to demonstrate that the activation of downstream effectors of PI3K, including Akt, are concurrently decreased during acute simulated ischemia
and acute hypoxia in a manner that is independent of PDK-1 and PTEN and that the decreases in
the PI3K/Akt pathway activity produce a knock-on effect to the downstream signalling of
transcription factors, such as Fox01 and Fox04, in our model. We proceed to provide compelling
evidence that the apoptotic resistance of C2C12s is at least partially lost due to these decreases in
PI3K/Akt pathway activity, by showing increased caspase-3 and PARP cleavage. Then, using
vital staining techniques and a DNA fragmentation assay, we demonstrate increased cell
membrane impairment, cell death and apoptosis after three hours of simulated ischemia and
hypoxia in cultured C2C12 myotubes. In addition to the main findings, we produce evidence of
decreased flux through the mTOR pathway, by showing decreased Akt-dependant
phosphorylation at the level of TSC2 and mTOR during simulated ischemia and hypoxia.
Finally, we present preliminary findings indicating increased levels of HIF1α and REDD-1,
representing a possible oxygen sensing mechanism in our model. Therefore, we show that there
is in fact a rapid decrease in PI3K/Akt activity during severe, acute simulated ischemia and
hypoxia in C2C12 myotubes on day ten post-differentiation, and this causes a concomitant down
regulation in cell survival pathways and increased activity of cell death machinery. Thereafter,
we propose a possible mechanism of action and provide a platform for future studies.
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THE MECHANOTRANSDUCTION OF PRIMARY CILIA IN TUMOR PROGRESSION OF LUNG ADENOCARCINOMAPatel, Sagar 25 April 2013 (has links)
The objective of this study was to investigate primary cilia and their mechanotransduction role in lung adenocarcinoma tumor progression. The main focus investigated the effect of primary cilia on cell cycle progression, survival, adhesion and migration analysis of these cells and the role of sonic hedgehog signaling pathway in mechanotransduction. Human Non-Small Cell Lung Cancer (NSCLC) adenocarcinoma biopsies contain more primary cilia than non-tumor lung sections. To observe the effects of primary cilia presence in lung cancer cells in-vitro, formation of primary cilia is inhibited using small interfering RNA. A549 cells with intact primary cilia observe less cell cycle progression than cells deficient in primary cilia under static and cyclic stretch conditions. Primary cilia cause higher cell survival and adhesion. Increase in cell adhesion also increases the migration and wound closure rates in control samples compared to samples treated with inhibition of IFT88, thereby increasing the metastasis of these cells. Several downstream regulatory genes in sonic hedgehog signaling pathway observe significantly decreased gene expressions in primary cilia deficient cells, thus indicating inefficient mechanotransduction. Therefore, cancer cells need primary cilia to survive, adhere and migrate and continue tumor progression.
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Sobrevivência, integração e diferenciação neuronal de células-tronco mesenquimais murinas da medula óssea em ratos normais / Neuronal survival, integration and differentiation of mesenchymal stem cells in normal ratsLepski, Cinthia Elim Jannes 12 April 2010 (has links)
Introdução. A possiblidade de restauração do Sistema Nervoso Central representa um desafio em Neurociências, e a integração bem sucedida de células-tronco no cérebro adulto tem se tornado um importante objetivo. Objetivo. Testar a hipótese de que a sobrevivência e diferenciação de células-tronco mesenquimais (CTMs) sejam dependentes de condições microambientais de acordo com o alvo de implante no cérebro. Métodos. CTMs foram isoladas de ratos adultos e geneticamente modificadas por meio de transfecção lentiviral para expressarem GFP. O fenótipo neuronal foi satisfatoriamente induzido in vitro. Uma suspensão de células foi implantada estereotaxicamente no cérebro de 40 ratos da mesma linhagem, em uma área neurogênica (hipocampo) e outra não-neurogênica (estriado). Os animais foram sacrificados 6 e 12 semanas após a cirurgia, e os cérebros foram corados com marcadores de neurônios maduros. Células co-expressando NeuN e GFP foram contadas estereologicamente nos dois alvos. Resultados. A população de célula isolada foi capaz de gerar 14,5 ± 1,1 % de neurônios NF200-positivos in vitro. Uma vez implantados no hipocampo, as células migraram além do enxerto e geraram neurônios maduros (1634±231 células GFP/NeuN+). Por outro lado, maciça degeneração celular foi vista no estriado, onde não ocorreu migração significativa, sendo que somente 108±24 NeuN/GFP+ neurônios (p<0.001) foram contados. Conclusão. Nossos dados demonstraram que a sobrevivência e diferenciação de CTMs são altamente dependentes do sítio de implante no cérebro hospedeiro, indicando assim a importância de um microambiente permissivo. Futuros estudos para identificação dos fatores pró-neurogênicos presentes no hipocampo poderão subsequentemente permitir a integração de células-tronco em áreas do SNC nãopermissivas, assim contribuindo para se alcançar o objetivo de introduzir a restauração do SNC na prática clínica. / The possibility of CNS restoration represents a challenge in Neuroscience, and the successful integration of stem cells in adult brain has become an important goal. The working hypothesis of the present study is that survival and neurodifferentiation of mesenchymal stem cells (MSCs) may be dependent upon microenvironmental conditions according to the site of implant in the brain. Methods: MSCs were isolated from adult rats and labeled with eGFP lentivirus. The neuronal phenotype was successfully induced in vitro. A cell suspension was implanted stereotactically into the brain of 40 young rats of the same strain, in neurogenic (hippocampus) and non-neurogenic (striatum) areas. Animals were sacrificed six or twelve weeks after surgery, and brains were stained for mature neuronal markers. Cells co-expressing NeuN-GFP were counted stereologically at both targets. Results: The isolated cell population was able to generate 14.5±1.1% of NF200+-neurons in vitro. Once implanted into the hippocampus, cells migrated away from the graft and gave rise to mature neurons (1634±231 cells GFP/NeuN+). By contrast, massive cell degeneration was seen in the striatum, with no significant migration, while only 108±24 NeuN/GFP+ neurons (p<0.001) were counted. Conclusions: Our data demonstrated that survival and differentiation of MSCs are strongly dependent upon the site of implant in the brain, thus indicating the importance of a permissive microenvironment. Future studies for identification of the pro-neurogenic factors present in the hippocampus could subsequently allow the integration of stem cells into non-permissive areas of the CNS and thus contribute for the challenging goal of introducing CNS repair in the clinical practice.
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Analysis of signaling mechanisms essential to mature B cell viabilityPatke, Alina 08 October 2007 (has links)
Die Langlebigkeit reifer periphärer B Zellen ist abhängig von mindestens zwei Überlebenssignalen, einem tonischen Signal, welches vom B Zellrezeptor ausgeht und dem Zytokin B Zell aktivierender Faktor der TNF-Familie (BAFF). BAFF fördert nicht nur das Überleben von reifen B Zellen, sondern kontrolliert auch deren Funktionstüchtigkeit, indem es vielschichtige physiologische Prozesse wie Zellwachstum und –metabolismus, Energiehaushalt und Eintritt in den Zellzyklus reguliert. Zwei BAFF-induzierte molekulare Mechanismen, zum einen die Aktivierung des Akt Signaltransduktionsweges sowie die erhöhte Expression der onkogenen kinase Pim-2 zum anderen, führen zu Veränderungen in Effektorproteinen welche in der Lage sind diese physiologischen Zellveränderungen auszulösen. Die BAFF-induzierte Aktivierung von Akt hängt von der klassischen Proteinkinase C (PKC) beta ab und sowohl PKC beta-defiziente B Zellen als auch Mäuse zeigen Anzeichen von Unsensitivität gegenüber BAFF-Stimulation. Die Proteintyrosinkinase Syk spielt eine Rolle während der frühen B Zellentwicklung und wird in reifen B Zellen durch Stimulation des B Zellrezeptors aktiviert. Induzierbare Inaktivierung von Syk in Mäusen führt zum Verschwinden reifer B Zellen aus den periphären lymphoiden Organen, was auf eine unverzichtbare Funktion von Syk in der Vermittlung des tonischen B Zellrezeptorsignals schliessen läßt. / The maintenance of mature peripheral B cells depends on at least two survival cues, tonic signaling from the B cell receptor (BCR) complex and the extracellular cytokine B cell activating factor of the TNF family (BAFF). In addition to enhancing viability, BAFF controls the functional efficiency of the peripheral B cell pool by regulating complex physiological processes including cell growth, metabolism, energy homeostasis and entry into the cell cycle. BAFF-mediated induction of two molecular mechanisms, namely activation of the Akt signal transduction pathway and upregulation of the oncogenic kinase Pim-2 results in the modification of effector proteins including transcription factors and regulators of protein synthesis which are capable of executing the observed cellular physiological changes. The classic protein kinase C beta is instrumental in BAFF-induced Akt-activation and PKC beta-deficient B cells and mice show signs of partial refractiveness to BAFF. The protein tyrosine kinase Syk plays a role in early B cell development and is activated in mature B cells by immunogenic BCR-stimulation. Inducible ablation of Syk in mice results in the loss mature B cells from the peripheral lymphoid organs and reveals an indispensable function for Syk in tonic BCR survival signaling.
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Avaliação do aquecimento ósseo, da viabilidade celular imediata e da deformação de fresas de alta resistência após osteotomia para implantes em tíbias de coelhos /Carvalho, Abrahão Cavalcante Gomes de Souza. January 2008 (has links)
Resumo: O propósito deste trabalho foi avaliar a influência da reutilização de fresas de alta resistência sobre o aquecimento ósseo, a viabilidade celular imediata e a deformação das fresas após osteotomia para implantes em tíbias de coelhos. Para isso, foram utilizados 12 coelhos machos brancos (Oryctolagus cunilicus, Nova Zelândia), que foram submetidos a 200 sequências de fresagens para implantes na cortical superior de suas tíbias. Foram estabelecidos 6 grupos (G1 a G6) que correspondiam ao número de osteotomias realizadas por cada fresa (0, 10, 20, 30, 40 e 50). Cada leito cirúrgico recebia a seguinte sequência de fresagem: fresa tipo lança e helicoidais de 2,0mm, 2,8mm, 3,0mm e 3.15mm. As áreas osteotomizadas foram coletadas para análise imunoistoquímica, as oscilações térmicas foram quantificadas e as fresas utilizadas receberam análise por microscopia eletrônica de varredura. Nos resultados, houve uma correlação alta entre a porcentagem de deformação e o número de reutilização de cada fresa (Coeficiente de Correlação de Pearson r = 0,984). Observou-se também que as fresas do tipo lança apresentaram maior deformação após o uso do que as fresas helicoidais (proporção de 2:1). Não houve correlação estatística significativa entre aumento da reutilização da fresa e aquecimento ósseo (p > 0,05). No entanto, observouse que a oscilação térmica durante a fresagem da lança é maior que as demais fresagens (proporção de 3:1). Na análise imunoistoquímica, observou-se um equilíbrio fisiológico da expressão das proteínas Osteoprotegerina e RANKL em todos os grupos, no entanto, houve maior expressão de todas as proteínas no Grupo 6. De acordo com a metodologia aplicada, foi possível concluir que as fresas avaliadas não causam aquecimento ósseo significativo em até 50 reutilizações, no entanto, causam maior trauma tecidual na 50ª fresagem... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The purpose of this study was evaluate the influence of high resistence drill reuse over bone heating, immediate bone-cell viability and drills wear after implant osteotomies in rabbit tibias. Therefore, 12 male white rabbits (Oryctolagus cunilicus, New Zealand) received 200 implant sequential osteotomies over the superior cortical of their tibia. Six groups were established (G1 to G6), according to the number of osteotomy of each drill (0, 10, 20, 30, 40 and 50). The implant sequence of drills was: spear drill, 2,0mm, 2.8mm, 3.0mm and 3.15mm helicoidal drills. The receptor-beds were collected to imunohistochemistry, the thermal changes were quantified and the drills received scanning electron microscopy analysis. In the results, a great correlation degree between drill wear and number of osteotomies was observed (Pearson's Correlation Coefficient r = 0,984). Another result was that spear drill have more deformation than helicoidal drills (2:1 proportion). The bone heating analysis concluded that there was no statistical siginificance between number of osteotomy and bone heating (p > 0,05). However, the thermal changes during spear drilling was greater than during helicoidal drillings (3:1 proportion). Imunohistochemistry results showed a physiological balance of Osteoprotegerin and RANKL immunolabeling in all groups, however there was a greater immunolabeling of all proteins in the last group. According to this metodology, the conclusion is that the tested drills do not caused significant bone heating after 50 reuses, however, they caused more tissue trauma at 50th osteotomy. So, the studied system must be reused for 40 times, and the spier drill must be substituted after 20 osteotomies. / Orientador: Luiz Antonio Salata / Coorientador: Osvaldo Magro Filho / Banca: Márcio de Moraes / Banca: Idelmo Rangel Garcia Júnior / Mestre
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Avaliação da expressão dos genes envolvidos na via de sinalização induzida pela proteína dermicidina no câncer de mama. / Evaluation of the expression of genes involved in signaling pathway induced by the protein dermicidin in breast cancer.Dayson Friaça Moreira 15 February 2012 (has links)
A expressão do gene Dermicidina (DCD) no câncer de mama promove aumento na proliferação e sobrevivência celular, porém os mecanismos envolvidos são desconhecidos. Através de um ensaio de microarranjos de DNA demonstramos que o DCD desempenha atividade de fator de crescimento pela modulação da via de sinalização EGF/ErbB. Estes dados foram confirmados através de silenciamento gênico, superexpressão e tratamento com a proteína recombinante. O silenciamento diminuiu a expressão de EGFR e seus ligantes, e reduziu a ativação da via de sinalização EGF/ErbB. O tratamento da linhagem celular MDA-MB-361 com DCD recombinante resultou em uma curva de proliferação em forma de sino com concomitante aumentou a expressão de EGFR e seus ligantes. A superexpressão de DCD na linhagem MCF-7 também resultou no aumento da expressão dos receptores EGFR e HER-2 e de seus ligantes, além da ativação de suas vias de sinalização. Este trabalho sugere que o DCD é capaz de modular a expressão e ativação da família EGF/ErbB resultando no aumento do crescimento e sobrevivência celular. / The expression of the gene Dermicidin (DCD) in breast cancer promotes increased in cell growth and survival, however the mechanisms involved are unknown. Using a DNA microarray assay we demonstrated that the DCD activity plays by modulating growth factor signaling phathway of EGF/ErbB. These data were confirmed by gene silencing, overexpression and treatment with the recombinant protein. The silencing decreased the expression of EGFR and its ligands, and reduced the activation of the EGF/ErbB signaling pathways. The treatment of MDA-MB-361 cell line with recombinant DCD resulted in a proliferation curve bell-shaped with a concomitant increased in the expression of the EGFR and its ligands. The overexpression of the DCD in the MCF-7 cell line also resulted in increased expression of the receptors HER-2 and EGFR and its ligands, and activation of theirs signaling pathways. This work suggests that DCD is able to modulate the expression and activation of the EGF/ErbB family resulting in increased of cellular growth and survival.
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Identificação e caracterização das interações do gene ID1 em células mesangiais humanas. / Identification and characterization of ID1 gene interactions in human mesangial cells.Sato, Alex Yuri Simões 14 February 2011 (has links)
As células mesangiais (CM) apresentam papel essencial na fisiologia glomerular normal, e alterações em seu fenótipo levam ao desenvolvimento de glomerulopatias. A fase tardia da glomerulopatia diabética é caracterizada por fibrose e morte por apoptose das CM. Portanto, a identificação de novos elementos envolvidos nas modificações patológicas das CM facilitaria a compreensão da fisiopatologia das doenças glomerulares. A família de genes ID está implicada em processos celulares distintos, como proliferação, diferenciação e apoptose. O presente estudo tem por finalidade investigar as interações do gene ID1, com o DNA e/ou proteínas, em CM humanas. Aqui demonstramos que Id1 interage com o fator de transcrição USF2, inibindo sua atividade transcricional. Adicionalmente, demonstramos que BMP-7 e Id1 antagonizam a morte celular induzida por TGF<font face=\"Symbol\">b-1 por inibir a atividade de USF2. Nossos dados apontam para uma nova via molecular portencialmente relevante para o melhor entendimento da patogênese das doenças renais crônicas. / Mesangial cells (MC) play an essential role in normal function of the glomerulus. Phenotypic changes in MC lead to the development of glomerophaties. The late phase of diabetic glomerulopathy is characterized by fibrosis and death of MC. Thus, the identification of novel elements involved in these alterations would facilitate the comprehension of the pathophysiology of glomerular diseases. The ID (Inhibitors of DNA binding) family of genes has been implicated in diverse cellular processes, such as proliferation, differentiation, and apoptosis control. This study aims to investigate the interactions of ID1, with DNA or proteins, in human mesangial cells. We demonstrated that Id1 binds specifically to the transcription factor USF2. In addition, we show that BMP-7 and Id1 antagonize TGF<font face=\"Symbol\">b-1 induced death by inhibiting USF2 activity in human MC. In conclusion, our results point to a novel molecular path involved in the pathogenesis of glomerular diseases.
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Avaliação da expressão dos genes envolvidos na via de sinalização induzida pela proteína dermicidina no câncer de mama. / Evaluation of the expression of genes involved in signaling pathway induced by the protein dermicidin in breast cancer.Moreira, Dayson Friaça 15 February 2012 (has links)
A expressão do gene Dermicidina (DCD) no câncer de mama promove aumento na proliferação e sobrevivência celular, porém os mecanismos envolvidos são desconhecidos. Através de um ensaio de microarranjos de DNA demonstramos que o DCD desempenha atividade de fator de crescimento pela modulação da via de sinalização EGF/ErbB. Estes dados foram confirmados através de silenciamento gênico, superexpressão e tratamento com a proteína recombinante. O silenciamento diminuiu a expressão de EGFR e seus ligantes, e reduziu a ativação da via de sinalização EGF/ErbB. O tratamento da linhagem celular MDA-MB-361 com DCD recombinante resultou em uma curva de proliferação em forma de sino com concomitante aumentou a expressão de EGFR e seus ligantes. A superexpressão de DCD na linhagem MCF-7 também resultou no aumento da expressão dos receptores EGFR e HER-2 e de seus ligantes, além da ativação de suas vias de sinalização. Este trabalho sugere que o DCD é capaz de modular a expressão e ativação da família EGF/ErbB resultando no aumento do crescimento e sobrevivência celular. / The expression of the gene Dermicidin (DCD) in breast cancer promotes increased in cell growth and survival, however the mechanisms involved are unknown. Using a DNA microarray assay we demonstrated that the DCD activity plays by modulating growth factor signaling phathway of EGF/ErbB. These data were confirmed by gene silencing, overexpression and treatment with the recombinant protein. The silencing decreased the expression of EGFR and its ligands, and reduced the activation of the EGF/ErbB signaling pathways. The treatment of MDA-MB-361 cell line with recombinant DCD resulted in a proliferation curve bell-shaped with a concomitant increased in the expression of the EGFR and its ligands. The overexpression of the DCD in the MCF-7 cell line also resulted in increased expression of the receptors HER-2 and EGFR and its ligands, and activation of theirs signaling pathways. This work suggests that DCD is able to modulate the expression and activation of the EGF/ErbB family resulting in increased of cellular growth and survival.
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