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Efeito dual de FGF2 e PMA em células HEK 293 transformadas por H-rasV12 / Dual effects of FGF2 and PMA on H-rasV12 transformed HEK293 cell lineJuliana Galvão da Silva 19 September 2014 (has links)
Sabe-se há décadas que mutações nos genes ras estão presentes em cerca de 20% dos cânceres humanos, mas o desenvolvimento de terapias eficazes para o tratamento de câncer dependente dos oncogenes ras permanece um desafio científico importante. Nesse contexto, o nosso grupo publicou recentemente resultados interessantes mostrando que FGF2 exógeno ou PMA, contrariamente à expectativa geral, inibem a proliferação de células de camundongo malignas dependentes dos oncogenes H- ou K-Ras. Para dar continuidade a estes estudos o projeto desta tese foi planejado para investigar os mecanismos subjacentes a possíveis efeitos citotóxicos de FGF2 e PMA em células humanas transformadas por ras. Para esse fim, a linhagem humana imortalizada HEK 293 foi condicionalmente transformada pela expressão ectópica da construção quimérica de DNA ER:H-rasV12, que codifica a oncoproteína de fusão ER:H-RasV12, cuja atividade é induzível por 4-hidroxi-tamoxifen (4OHT). Essa abordagem nos permitiu verificar os efeitos de FGF2 e PMA em sublinhagens HEK/ER:HrasV12 fenotipicamente \"normais\" ou transformadas por níveis crescentes da oncoproteína H-RasV12. Os principais resultados mostraram que tanto FGF2 como PMA tem efeito dual promovendo ou inibindo a proliferação das células transformadas em função da concentração intracelular crescente de H-RasV12. Ensaios de crescimento de colônias em suspensão de agarose mostraram que: a) as células parentais HEK293 não desenvolveram colônias mesmo quando tratadas com FGF2 ou PMA, resultados que estão de acordo com seu fenótipo não tumoral; b) mas, as sublinhagens HEK/ER:HrasV12 deram origem a colônias mesmo quando tratadas com concentrações pequenas de 4OHT, que condicionaram níveis intracelulares baixos de ER:HRasV12; nestas condições experimentais, FGF2 foi um forte promotor do crescimento de colônias, condizente com sua reconhecida atividade promotora do crescimento de células tumorais em suspensão; ainda nestas condições, PMA não teve efeito significante sobre o crescimento de colônias; c) coerentemente, concentrações elevadas de 4-OHT levaram aos níveis intracelulares mais altos de ER:HRasV12 e, por conseguinte, a desenvolvimento máximo de colônias de células HEK/ER:HrasV12, no entanto, nestas condições, ambos FGF2 e PMA inibiram completamente o crescimento de colônias. Por outro lado, transformação de HEK293 com um vetor de expressão constitutiva de HrasV12 levou à seleção e isolamento das sublinhagens tumorais HEK/HrasV12, cujo fenótipo se caracterizou por: a) nenhum efeito de FGF2 sobre a sua proliferação e b) forte inibição de sua proliferação por PMA. A ação citotóxica de PMA exclusivamente observada em células HEK 293 transformadas por H-rasV12 se caracterizou por: a) total dependência de PKC, provavelmente mediada pela ativação proteolítica específica de PKC δ; b) envolvimento de níveis elevados e sustentados de ROS com disparo tardio de apoptose. / It is known for nearly 20 years that mutated ras oncogenes are found in 20% of human malignancies, however efficacious therapies are not yet available for Ras-driven cancer. Along of these lines, our group recently published provocative results showing, against common belief, that FGF2 and PMA inhibited proliferation of Ras-dependent malignant mouse cells. Aiming to gain insight into this intriguing phenomenon, the present thesis project was planned to investigate the possible cytotoxicity of FGF2 and PMA in human Ras-driven malignant cells. To this end an immortalized non-tumorigenic human cell line (HEK293) was stably transformed with the DNA construction ER:H-rasV12, which encodes the fusion protein ER:H-RasV12, whose activity requires activation by 4-hidroxitamoxifen (4-OHT). This approach allowed us to evaluate FGF2 and PMA effects on HEK/ER:HrasV12 sublines under switching from \"normal\" to transformed phenotypes upon 4-OHT induction. Our main results have shown that both FGF2 and PMA displayed dual effects promoting or inhibiting proliferation of HEK/ER:HrasV12 cells in function of ER:HRasV12 intracellular levels. Clonogenic assays in agarose suspension have shown: a) parental HEK293 line did not develop colonies under FGF2 and PMA treatment or not, in agreement with its non-tumorigenic nature; b) however, HEK/ER:HrasV12 sublines developed colonies even under low 4-OHT concentrations, which led to low ER:HRasV12 intracellular levels; under these conditions FGF2 strongly promoted colony growth and PMA had no effect; c) furthermore, in HEK/ER:HrasV12 sublines, elevated 4-OHT concentrations led to high ER:HRasV12 intracellular levels and maximal colony growth; but, under these experimental conditions both FGF2 and PMA abolished colony growth. On the other hand, HEK293 transformation with a vector that constitutively express HrasV12 yielded HEK/ER:HrasV12 sublines displaying the following phenotypic traits: a) non FGF2 effects on proliferation and b) severe proliferation inhibition by PMA. PMA toxicity, exclusively observed in HrasV12 -transformed HEK293 cells, was characterized by: a) total dependency on PKC, likely mediated by specific proteolytic activation of PKCδ; b) involvement of high and sustained ROS levels correlated with late apoptosis triggering.
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The Effect of Teneurin C-terminal Associated Peptide-1 (TCAP-1): Protection Against Hypoxic-stress and Regulation of Brain-derived Neurotrophic Factor (BDNF) in Immortalized Hypothalamic N38 CellsNg, Tiffany 12 January 2011 (has links)
Teneurin C-terminal associated peptide-1 (TCAP-1) is a recently characterized peptide that may act as one potential neuroprotective agent as it has been shown to regulate several stress-associated behaviours in rodents and possesses a number of protective actions on cells, however the mechanism remains unknown. Brain-derived neurotrophic factor (BDNF) is a neurotrophin recognized for mediating survival, differentiation, and proliferation. TCAP-1 may act, in part, via BDNF to provide neuroprotection via modulation of BDNF expression. The aim of this research was to further investigate the mechanism of TCAP’s neuroprotective actions. I show that TCAP-1 is neuroprotective and a potent enhancer of cell numbers under varying levels of oxygen. I also establish that TCAP-1 is able to influence neuronal behaviour by differentially regulating neurite growth. In addition, I indicate that TCAP-1 is able to regulate BDNF expression in immortalized mouse hypothalamic N38 cells, which suggests that TCAP-1’s neuroprotective mechanism may involve BDNF.
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The Effect of Teneurin C-terminal Associated Peptide-1 (TCAP-1): Protection Against Hypoxic-stress and Regulation of Brain-derived Neurotrophic Factor (BDNF) in Immortalized Hypothalamic N38 CellsNg, Tiffany 12 January 2011 (has links)
Teneurin C-terminal associated peptide-1 (TCAP-1) is a recently characterized peptide that may act as one potential neuroprotective agent as it has been shown to regulate several stress-associated behaviours in rodents and possesses a number of protective actions on cells, however the mechanism remains unknown. Brain-derived neurotrophic factor (BDNF) is a neurotrophin recognized for mediating survival, differentiation, and proliferation. TCAP-1 may act, in part, via BDNF to provide neuroprotection via modulation of BDNF expression. The aim of this research was to further investigate the mechanism of TCAP’s neuroprotective actions. I show that TCAP-1 is neuroprotective and a potent enhancer of cell numbers under varying levels of oxygen. I also establish that TCAP-1 is able to influence neuronal behaviour by differentially regulating neurite growth. In addition, I indicate that TCAP-1 is able to regulate BDNF expression in immortalized mouse hypothalamic N38 cells, which suggests that TCAP-1’s neuroprotective mechanism may involve BDNF.
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Serotonergic Responsiveness in Hypothalamic NeuronsTung, Stephanie S. Y. 04 December 2012 (has links)
Serotonin (5-HT) has been implicated in energy homeostasis. There is growing evidence
that 5-HT, acting through the 5-HT1BR in the paraventricular nucleus of the hypothalamus
(PVN), is important to this regulation. To investigate the cellular events underlying 5-HT1BR action, a PVN neuronal cell model was established. The mHypoA-2/30 cell line expresses a complement of markers and neuropeptides specifically localized to the PVN. 5-HT induces neuronal activation in a dose-dependent manner as determined by an elevation in cFos mRNA levels. As 5-HT exerted limited transcriptional control, the integrity of 5-HT signaling machinery was assessed. 5-HT signals through cAMP and calcium secondary messenger systems by
suppressing cAMP and elevating intracellular calcium, effects that are mimicked by activating the 5-HT1BR and that are attenuated in the presence of inhibitors. These findings support the use of this novel PVN cell model for delineating components involved in direct 5-HT action in PVN neurons.
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Serotonergic Responsiveness in Hypothalamic NeuronsTung, Stephanie S. Y. 04 December 2012 (has links)
Serotonin (5-HT) has been implicated in energy homeostasis. There is growing evidence
that 5-HT, acting through the 5-HT1BR in the paraventricular nucleus of the hypothalamus
(PVN), is important to this regulation. To investigate the cellular events underlying 5-HT1BR action, a PVN neuronal cell model was established. The mHypoA-2/30 cell line expresses a complement of markers and neuropeptides specifically localized to the PVN. 5-HT induces neuronal activation in a dose-dependent manner as determined by an elevation in cFos mRNA levels. As 5-HT exerted limited transcriptional control, the integrity of 5-HT signaling machinery was assessed. 5-HT signals through cAMP and calcium secondary messenger systems by
suppressing cAMP and elevating intracellular calcium, effects that are mimicked by activating the 5-HT1BR and that are attenuated in the presence of inhibitors. These findings support the use of this novel PVN cell model for delineating components involved in direct 5-HT action in PVN neurons.
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Oxidační a karbonylový stres u onemocnění ledvin / Oxidative and carbonyl stress in kidney diseasesKratochvílová, Markéta January 2016 (has links)
Aims: 1. Determination of AGEs (Advanced Glycation End products) in patients with various types of nephropathy. 2. Association AGEs with nutritional parameters and anemia. 3. Influence of renal parameters on sRAGE (soluble form of Receptor for Advanced Glycation End products) levels. 4. Technics and proceeding methods of the podocytes cultivation. 5. Determination of urine podocytes. Methods: We determined fluorescent AGEs by spectrofluorometry, sRAGE by Enzyme-Linked ImmunoSorbent Assay (ELISA). Podocytes were passaged and identified immunocytochemically. Podocytes in urine were specified by flow cytometry method. Results: 1. We did not find significant differences in AGEs serum levels among various types of nephropathy, even though the pathogenesis differs. 2. The albumin and prealbumin levels positively and haemoglobin levels negatively correlate with AGEs in patients with CKD grade 1-5, without necessity of dialysis. 3. Serum sRAGE levels are increased in patients with decreased renal function independently on the course of renal disease. 4. We implemented the methods and technics of podocyte cultivation. 5. Urine podocytes observation and confirmation that podocyturia relates to disease activity. Conclusion: We confirmed that AGEs serum levels depend more on renal function than the type of...
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Oxidační a karbonylový stres u onemocnění ledvin / Oxidative and carbonyl stress in kidney diseasesKratochvílová, Markéta January 2016 (has links)
Aims: 1. Determination of AGEs (Advanced Glycation End products) in patients with various types of nephropathy. 2. Association AGEs with nutritional parameters and anemia. 3. Influence of renal parameters on sRAGE (soluble form of Receptor for Advanced Glycation End products) levels. 4. Technics and proceeding methods of the podocytes cultivation. 5. Determination of urine podocytes. Methods: We determined fluorescent AGEs by spectrofluorometry, sRAGE by Enzyme-Linked ImmunoSorbent Assay (ELISA). Podocytes were passaged and identified immunocytochemically. Podocytes in urine were specified by flow cytometry method. Results: 1. We did not find significant differences in AGEs serum levels among various types of nephropathy, even though the pathogenesis differs. 2. The albumin and prealbumin levels positively and haemoglobin levels negatively correlate with AGEs in patients with CKD grade 1-5, without necessity of dialysis. 3. Serum sRAGE levels are increased in patients with decreased renal function independently on the course of renal disease. 4. We implemented the methods and technics of podocyte cultivation. 5. Urine podocytes observation and confirmation that podocyturia relates to disease activity. Conclusion: We confirmed that AGEs serum levels depend more on renal function than the type of...
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