Global ETD Search

81	The role of the oxygen sensors PHD2 and PHD3 in the response of macrophages to ischemia-induced inflammation Beneke, Angelika 24 October 2016 (has links) No description available. 610 Hypoxia Macrophage Prolyl-4-hydroxylase domain enzymes Medizin (PPN619874732)
82	Tissue expression and functional insights into HIF prolyl hydroxylase domain enzymes Wijeyekoon, Jananath Bhathiya January 2013 (has links) This research programme investigated the expression of prolyl hydroxylase (PHD) proteins in rodent tissues. The importance of PHD enzymes lies in their ability to render oxygen sensitivity to Hypoxia inducible factor (HIF), the principal mediator of intracellular oxygen homeostasis. The first part of this study focused on developing and validating anti-sera capable of detecting PHD proteins in rodent tissues. With these reagents, it was possible to assess the relative expression of each PHD protein in a number of different rat tissues. PHD2 was the most abundant isoform in all tissues studied. In contrast, an abundance of PHD1 was observed only in testis and skeletal muscle. A number of different tissue species of PHD3 were identified and their abundance was found to vary between different tissues. These observations provide further evidence of the principal role of PHD2 in regulating HIF in vivo, but also point towards additional roles for PHD1 and PHD3 in selected tissues. They highlight the potential for there being a complex interplay between different PHD enzymes which could, in the future, prove potential targets for therapeutic manipulation. This study also provides additional insights into the mechanisms underlying the phenotypes observed in PHD deletional mouse models which appear, in many cases, to be directly related to the abundance of a given PHD isoform. The emerging role of PHD3 as a promoter of sympathetic lineage apoptosis prompted further study of PHD3 expression in rat neuronal tissues. An abundance of PHD3 was demonstrated throughout the rat sympathetic nervous system, a finding which appeared at odds with its known role as a promoter of neuronal apoptosis and resulted in a series of collaborative studies which demonstrated a sympatho-adrenal phenotype in wild type compared to PHD3-/- mice. Further collaborative studies utilising wild type mice and those deleted of specific PHD isoforms, were carried out to assess the significance of the abundance of PHD3 and PHD1 noted here in rat hippocampus and testis respectively. While neither study demonstrated statistically significant phenotypes, these observations remain of interest and areas for future research. 616
83	Characterization of the FTF/HNF-4 Sites Within the 7Alpha- and the 12Alpha-Hydroxylase Promoters Involved in the Bile Acid-Mediated Transcription of their Regulation Pramanik, Preeti 01 January 2006 (has links) Bile acids regulate their own synthesis through a feedback regulatory mechanism of mainly two enzymes in the classic pathway, the 7α-hydroxylase and the 12α-hydroxylase. In the early 1990's it was shown that the regulatory responses of 7α-hydroxylase are mediated at the transcriptional level and since then many positive and negative transcription factors that mediate regulatory response have been identified. An important finding was that the transcription factors regulating the expression of 7α- and 12α-hydroxylase genes are nuclear receptors.One of the first nuclear receptors identified to play a role in the transcription of the 7α-hydroxylase gene was HNF-4 since then many nuclear receptors have been identified that are involved in regulating the 7α- and 12α-hydroxylase genes. Among them the most important ones are FTF and HNF-4 which has been shown to play crucial roles in the transcription and regulation by bile acids. In this study we demonstrate the importance of FTF and HNF-4 independent of each other in the transcription and bile acid-mediated regulation of the 7α- and 12α-hydroxylase enzymes by creating promoter mutants that would either bind FTF or HNF- 4. Once the binding studies were established we performed tissue culture experiments to confirm the promoter activity and bile acid-mediated regulation with the respective promoter mutant constructs. The data from this study shows that HNF-4 is important for 7α-hydroxylase promoter activity but is not required and importantly we show that HNF-4 is not a required for the bile acid-mediated regulation of the 7α-hydroxylase. We present data which suggests that FTF is absolutely required for the promoter activity and bile acid-mediated regulation of 7α-hydroxylase. With respect to the 12α-hydroxylases how that both FTF and HNF-4 are absolutely required for promoter activity. In this study we present evidence that since the bile acid responsive elements (BARE) are similar within both the 7α- and 12α-hydroxylase promoters one can be exchanged for the other maintaining both activity and bile acid-mediated regulation. 7α-hydroxylase transcription FTF HNF-4 Life Sciences
84	Physiopathologie de l'hypertension artérielle pulmonaire expérimentale et humaine / Physiopathology of experimental and human pulmonary arterial hypertension Izikki, Mohamed 24 July 2008 (has links) La physiopathologie de l'hypertension artérielle pulmonaire (HTAP) implique de multiples mécanismes. Elle est caractérisée, entre autres, par la réduction de la production des facteurs vasodilatateurs, l'augmentation exagérée des facteurs vasoconstricteurs et des facteurs de croissance qui conduisent à la vasoconstruction, la prolifération et le remodelage vasculaire pulmonaire. Les cellules endothéliales pulmonaires secrètent des facteurs paracrines qui contribuent à l'hyperplasie des cellules musculaires lisses pendant la progression de l'hypertension artérielle pulmonaire. Le FGF2 produit par les cellules endothéliales et stocké dans la matrice extracellulaire, est l'un de ces facteurs très bien documenté pour entraîner une prolifération des CML. Cette étude montre que l'inhibition de l'expression pulmonaire du bFGF par l'injection répétée du SiRNA chez les rats traités à la MCT, est corrélée à l'amélioration des paramètres hémodynamiques, du remodelage vasculaire et de l'hypertrophie cardiaque droite, en traitement préventif et curatif. Chez les sujets atteints d'hypertension pulmonaire le niveau de la sérotonine circulant est très élevé. La biosynthèse de la sérotonine dépend de la tryptophane hydroxylase. Nous avons étudié l'impact des variations génétiques de la Tph1 et de la Tph2 sur le développement de l'HTAP chez les souris. Cette étude a montré que la déficience en Tph1 (Tph périphérique) protège les souris contre l'hypoxie alors que les souches de souris porteuses du polymorphisme C1473G au niveau du gène Tph2 (Tph centrale) montrent des phénotypes d'HTAP différents pendant l'hypoxie. En plus de l'importance de la TPH, l'expression du 5-HTT est aussi déterminant dans l'HTAP. Les souris SM22 surexprimant le 5-HTT dans les CML à un niveau proche de celui des CML des patients atteints d'hypertension artérielle pulmonaire développent spontanément une HTAP qui s'aggrave avec l'âge. Du fait de la baisse considérable de l'activité de ces deux enzymes, le NO synthase et la prostacycline synthase, au niveau des cellules endothéliales chez les patients HTAP, le taux de l'AMPc et du GMPc baisse. Les PDEs hydrolysent les deux messagers des agents vasodilatateurs prostacycline et oxyde nitrique, et l'utilisation des inhibiteurs de phosphodiestérases augmentent la concentration intracellulaire de GMPc et AMPc et causent la vasodilatation pulmonaire. Le traitements des rats HTAP avec l'inhibiteur du PDE4 (Roflumilast) avec deux doses 1,5 et 0,5mg/Kg/jour, a montré une régression de l'HTAP, baisse de l'hypertrophie cardiaque et du remodelage vasculaire des rats traités à la monocrotaline ou mises en hypoxie aigüe (10% O2), chez qui un traitement préventif et curatif a été effectué. / The physiopatholy of pulmonary arterial hypertension (PAH) implies multiple mechanisms. It is characterized by the reduction of the production of vasodilatators factors, the overproduction of vasoconstrictor factors and growth factors which lead to the pulmonary vasoconstriction, and the pulmonary vascular remodeling. The pulmonary endothelial cells release paracrine factors which contribute to the hyperplasy of the smooth muscule cells (SMC) during the progression of PAH. The FGF2 produced by the endothelial cells and stored in the extracellular matrix is reproted to be involved in the SMC proliferation. This study shows that inhibition of the pulmonary expression of FGF2 by the repeated injection of SiRNA in the rats treated with monocrotaline (MCT), is correlated with the improvment of the hemodynamic parameters, vascular remodeling and right ventricular hypertrophy, in both, a preventive and a curative treatment. In pateints with PAH, it has been shown that the circulating level of serotonin is very high as compared to control patients. The biosynthesis of serotonin depends on tryptophan hydroxylase. Therefore, we studied the impact of the genetic variations of Tph1 and Tph2 on the development of PAH in mice. This study showed that deficiency in Tph1 (peripheral Tph) protects mice against the hypoxia-induced PAH severity during hypoxia. In addition to the importance of the Tph, the serotonin transporter (5-HTT) expression is also a determining factor in the development of PAH. Mice overexpressing 5-HTT (SM22-5-HTT+ mice) specifically in SMC develop spontaneously PAH in normoxia, which worsens with age. We observed a significant decrease int he rate of cAMP and cGMP produced in the endothelial cells from patients with PAH, which has been reported to be due to low activities of NO synthase and prostacyclin synthase. Phosphodiesterases (PDE)hydrolize the two messengers (cAMP and cGMP), and the use of specific inhibitors of PDE increases the intracellular concentration of cGMP and cAMP and causes pulmonary vasodilatation. A daily oral administration of Roflumilast (1,5 and 0,5 mg/kg/day) a specific inhibitor of PDE4, was effective in preventing and in reversin the PAH in both experimental model of PAH, the MCT and chronic hypoxia (10%O2,2 weeks) Hypertension artérielle pulmonaire Remodelage vasculaire Sérotonine Tryptophane hydroxylase FGF2 Phosphodiestérase 5-HTT
85	Modification de la synthèse des furocoumarines chez Ruta graveolens L. par une approche de génie métabolique / Functional exploration of the biosynthesis pathway of phenylpropanoids of Ruta graveolens by metabolic engineering Doerper, Sébastien 12 November 2008 (has links) La rue officinale (Ruta graveolens L) est une plante connue comme étant particulièrement riche en métabolites secondaires et produisant notamment des molécules d’intérêt pharmaceutique comme les furocoumarines. Nous avons tenté par une approche de génie métabolique d’augmenter la teneur en furocoumarines produites dans les plantes. La mise en place de telles approches nous a également permis de mieux comprendre les mécanismes de régulation de la voie de biosynthèse des phénylpropanoïdes. Pour atteindre ces objectifs nous avons transformé la rue avec différents gènes placés sous le contrôle d’un promoteur constitutif fort, le promoteur 35S du CaMV. Pour chaque série de transformants nous avons étudié la teneur en furocoumarines et analysé les variations de composés phénylpropanoïdes (rutine, umbelliférone, ferulate, scopolétine). Parallèlement à cette analyse métabolique, une corrélation a été réalisée avec le niveau d’expression des transgènes et de certains endogènes par l’utilisation d’approche de PCR quantitative. Les séries de plantes transgéniques surexprimant les gènes codants pour la Coumaroyl ester 3’-Hydroxylase de rue (CYP98A22) et d’A. thaliana (CYP98A3) présentent toutes les deux une augmentation significative d’une facteur 3 de la teneur en furocoumarines. Par contre si les premières sont caractérisées par une diminution de la production en rutine et en umbelliférone, les secondes présentent une augmentation importante de la teneur en Scopolétine et en umbelliférone. Ces résultats suggèrent la coexistence de deux C3’H chez R. graveolens ayant des fonctions différentes, l’une d’entre elles étant impliquée directement ou non dans la synthèse de scopolétine. Si la transformation génétique de rues avec des gènes de la famille CYP98A induit des modifications du métabolisme secondaire, la surexpression d’un gène spécifique à la voie de biosynthèse des furocoumarines (gène cyp71AJ1, codant pour la psoralène synthase d’A. majus) permet d’augmenter uniquement la teneur en furocoumarines (X4). L’ensemble de ces travaux a permis de montrer l’intérêt d’une approche de génie métabolique pour générer des plantes présentant un intérêt potentiel pour la production de molécules d’intérêts pharmaceutiques / Garden Rue (Ruta graveolens L.) is a plant known as being particularly rich in secondary metabolites and in particular producing molecules of pharmaceutical interest like furocoumarines. By the use of a metabolic engineering approach, we tried to increase the content of furocoumarines produced in these plants but also to better understand the regulation mechanisms of the phenylpropanoïd biosynthesis pathway. To achieve these goals we transformed Ruta plants with various genes placed under the control of a strong constitutive promoter, CaMV 35S promoter. The plants we obtained were analyzed for their ability to overproduce furocoumarines but also other phenylpropanoïds like ferulate, umbelliferone, scopoletine or rutin. Using Real Time PCR experiments, a correlation was carried out with the level of expression of each transgene and several endogenous genes. Plants overexpressing either the Ruta or the Arabidopsis Coumaroyl ester 3 '-Hydroxylase (CYP98A22 and CYP98A3 respectively) display both a significant increase (3 time level) of the furocoumarin. However if the S-98A22 plants are characterized by a reduction in the production of rutin and umbelliferone, S-98A3 transgenic plants display a significant increase scopoletine and umbelliferone content. These results suggest the coexistence of two C3'H having different functions in Ruta. One of them might be involved more specifically in the synthesis of scopoletine. If the transformation of Ruta with genes belonging to the CYP98A family generates an enlarged of the secondary metabolism, we also showed that the overexpression of a gene belonging to the furocoumarins biosynthesis pathway (CYP71AJ1, the psoralen synthase) allowed a specific stimulation. Indeed a 4 time increase of the content of furocouramins was noticed in these transgenic plant lines. This work made it possible to make evidence of the interest of a metabolic engineering approach to generate plants of interest for the production of pharmaceutical molecules Furocoumarines Psoralène Synthase (PS) Coumaroyl 3’-Hydroxylase (C3’H) Cinnamate 4-Hydroxylase (C4H) Génie métabolique Transformation génétique Ruta graveolens Phénylpropanoïdes Psoralène Furocoumarins Psoralen Synthase (PS) Coumaroyl 3’-Hydroxylase (C3’H) Cinnamate 4-Hydroxylase (C4H) Psoralen Phenylpropanoïds Ruta graveolens Genetic transformation Metabolic engineering
86	Efeitos do exercício físico no modelo da doença de Parkinson em ratos. / Effects of exercise on a rat model of Parkinson´s disease. Real, Caroline Cristiano 20 May 2013 (has links) O objetivo deste projeto foi investigar as alterações histológicas e comportamentais do exercício físico no modelo da doença de Parkinson (DP) induzida por 6-hidroxidopamina (6-OHDA) em ratos, e o papel do BDNF nas alterações encontradas. O estudo foi dividido em duas etapas, sendo elas voltadas para o efeito neuroprotetor e para o efeito preventivo do exercício. Para analisar o efeito do BDNF realizou-se injeção intraestriatal do bloqueador do receptor de BDNF (K252a). O protocolo de exercício consistiu de treino em esteira (3x/semana; 40 minutos). Realizaram-se testes comportamentais e análises histológicas da substância negra pars compacta e estriado. Os resultados obtidos revelaram, de modo geral, que o exercício foi eficaz na melhora do sistema dopaminérgico e capaz de recuperar o comportamento dos ratos injetados com 6-OHDA. Demonstramos ainda que o beneficio promovido pelo exercício intermitente parece ter o envolvimento do sistema BDNF-TrkB, sugerindo ser esse um importante sistema para prevenção e neuroproteção na DP. / Exercise is known to produce beneficial effects to the nervous system, The objective of this project was to investigate the histological and behavioral changes promoted by physical exercise in the PD model induced by 6-hydroxydopamine (6-OHDA) in rats, and the role of BDNF in the changes. The study was divided into two stages, aimed at evaluating the neuroprotective and the preventive effects of exercise. To analyze the effects of BDNF we used intrastriatal injections of a BDNF receptor blocker (K252a). The exercise protocol consisted of treadmill exercise (3x/week, 40 minutes). We carried out behavioral tests and histological analysis of the substantia nigra pars compacta and the striatum. The results showed, in general, that exercise is effective in improving the dopaminergic system and able to improve the behavior of rats injected with 6-OHDA. We also demonstrated that the positive effects of intermittent exercise appear to involve the BDNF-TrkB system, suggesting this as an important preventive and neuroprotective system in PD. Doenças de Parkinson Exercício físico Hidroxilase Hydroxylase Parkinson's disease Physical exercise Ratos Rats
87	Efeito de diferentes dietas sobre a modulação do comportamento alimentar em vias homeostáticas e hedônicas em ratas fêmeas Laureano, Daniela Pereira January 2013 (has links) Introdução: A exposição crônica a diferentes tipos de dieta altera o metabolismo hipotalâmico e mesolímbico, podendo causar alterações no comportamento alimentar do indivíduo. O BDNF, fator de crescimento neuronal, pode atuar na modulação do comportamento alimentar tanto em vias hedônicas quanto homeostáticas. O objetivo do estudo foi investigar como o BDNF atua na modulação do comportamento alimentar em vias homeostáticas e hedônicas em ratas fêmeas com diferentes perfis metabólicos. Materiais e métodos: Ratas Wistar fêmeas adultas randomizadas por peso foram divididas em: dieta controle (C) contendo 22% de proteína e 4% de lipídios; dieta hipoproteica (LP) 8% de proteína ou dieta hiperlipídica (HF) 45% de lipídios, ad libitum, por 5 semanas, sendo o consumo medido a cada 72 horas e o peso semanalmente. O trabalho foi dividido em duas partes. Na primeira parte, após as 5 semanas de dieta os animais ficaram em jejum por 4 horas e foram expostos ao alimento doce (Froot Loops®), previamente pesado, por 1 hora, a fim de verificar o consumo de alimento palatável em ratas com diferentes perfis metabólicos. Imediatamente após coletou-se sangue e cérebro, assim como, o peso da gordura abdominal foi mensurado. Na segunda parte do estudo, após as 5 semanas de dieta, os animais ficaram durante 7 dias no BioDAQ®, um sistema computadorizado de análise do comportamento alimentar, para avaliar o consumo da dieta habitual em ratas com diferentes perfis metabólicos. O consumo foi mensurado através de mordidas (diferença de 0,1 g na balança) e refeições (conjunto de porções por um tempo igual ou menor a 15 min, porções são mordidas ininterruptas). No dia 10 foi realizado o teste de preferência alimentar no qual o animal poderia escolher entre a dieta habitual (dieta que eles receberam por 5 semanas) ou a dieta hipersacarídica (HP) (contendo 34% lipídios, 30,2% carboidratos, 14% proteínas, 20% sacarose), com duração de 20 horas. Após 1 semana, foi coletado sangue, cérebro e mensurada a gordura abdominal. Foi realizado western blotting para tirosina hidroxilase (TH) e fosfo- tirosina hidroxilase (pTH) no núcleo accumbens, STAT3 e fosfo-STAT3 (pSTAT3) no hipotálamo. Adicionalmente, foi mensurado BDNF no soro, no núcleo do trato solitário (NTS), área tegmentar ventral (VTA) e glicemia no soro. Resultados: Nas 5 semanas de tratamento, em relação ao ganho de peso dos animais não houve diferenças significativas entre os grupos, não houve interação, apenas apresentaram efeito do tempo (p< 0,001). A gordura abdominal foi maior nas ratas HF (p= 0,002) e LP (p= 0,023) em relação aos controles. Os animais que receberam dieta HF comeram menos gramas de Froot Loops® do que os animais controle (p= 0,003). Durante a habituação ao BioDAQ® não houve diferença significativa no consumo de dieta entre os grupos. Na análise do comportamento alimentar no BioDAQ®, comparando os grupos controle versus hiperlídica (C x HF), animais HF tiveram o tamanho da refeição (g) (p=0,049), número de porções (p= p< 0,001), tamanho da refeição ciclo escuro (p= 0,002), número de porções ciclo escuro (p < 0,001) menor do que os controles e tamanho da porção ciclo escuro (p=0,006) maior do que os controles. Na análise do comportamento alimentar, comparando os grupos controle versus hipoproteica (C x LP) foram encontradas diferenças significativas nos seguintes parâmetros: média do tamanho da porção (g) (p= 0,004), média do tamanho da porção no ciclo claro (g) (p= 0,042), média do tamanho da refeição no ciclo escuro (g) (p= 0,035), média do tamanho da porção no ciclo escuro (g) (p= 0,006). Em todos os parâmetros os animais LP tiveram uma média maior do que os animais controle. No teste de preferência alimentar, os animais HF apresentaram uma média inferior aos animais controle nos seguintes parâmetros: consumo de dieta hipersacarídica (Kcal) (p= 0,034), número de refeições de dieta hipersacarídica (p= 0,016), número de porções de dieta hipersacarídica (p= 0,001). Os animais HF apresentaram médias superiores aos animais C em relação ao tamanho da porção de dieta hipersacarídica (g) (p= 0,023), PMI (intervalo entre refeições) total de dieta hipersacarídica (p= 0,022), saciedade total de dieta hipersacarídica (p= 0,008). Durante o teste de preferência alimentar comparando-se controle versus hipoproteica (C x LP), os animais (LP) apresentaram o consumo de dieta hipersacarídica (kcal) (p= 0,030) e o número de porções de dieta hipersacarídica (p= 0,003) menor que os animais controles. Os animais LP apresentaram saciedade total de dieta hipersacarídica (p= 0,046) maior do que os controles. Não houve diferenças significativas nos níveis de glicemia no soro entre os grupos. Os animais HF apresentaram as médias de pSTAT3 maior do que os controles (p= 0,013) e fosfo-tirosina hidroxilase menor do que os controles (p= 0,05). Os animais LP apresentaram STAT3 menor do que os animais controle (p= 0,035) e tiveram resultados de BDNF próximos da significância (p=0,053), tendo apresentado uma média inferior aos animais controle. Conclusões: A exposição aos diferentes tipos de dieta muda os padrões de alimentação bem como a estrutura corpórea. Tanto animais expostos a dieta HF quanto a LP apresentam alterações compatíveis com um estado de pré-resistência à leptina. O BDNF parece modular as vias homeostáticas e hedônicas do comportamento alimentar, no entanto mais estudos são necessários para entendermos melhor esses mecanismos. / Introduction: The chronic exposure to different types of diet modifies the hypothalamic and mesolimbic metabolism, what can lead to changes in the individual feeding behavior. BDNF, a neuronal growing factor, can act modulating feeding behavior in hedonic as well as in homeostatic pathways. The aim of this study was to investigate how BDNF acts modulating feeding behavior regarding hedonic and homeostatic pathways in female rats with different metabolic profiles. Materials and methods: Female adult Wistar rats randomized by weight were divided in: control diet (C) with 22% of protein and 4% of lipids; low-protein diet (LP) with 8% of protein or high fat diet (HF) with 45% of lipids, ad libitum, for 5 weeks, with the diet consumption verified every 72 hours and the weight verified weekly. The study was divided in two parts. In the first part, after 5 weeks receiving diet, animals were submitted to 4 hours of fasting and then were exposed to sweet food (Froot Loops®), previously weighted, for 1 hour to verify the palatable food consumption in rats with different metabolic profiles. Immediately after, blood and brain were collected and the abdominal fat weight was verified. In the second part of the study, after 5 weeks receiving diet, the animals were submitted to the BioDAQÒ, a computer system of feeding behavior analyses, to evaluate the habitual diet consumption in rats with different metabolic profiles for 7 days. The consumption was measured through bites (0.1g of difference in the scale) and meals (a group of portions for a period of time less or equal than 15min, portions are uninterrupted bites). On day 10 the food preference test was done and the animals could choose between the habitual diet (the one they have received for 5 weeks) and the high sucrose palatable diet (HP) (with 34% of lipids, 30.2% of carbohydrates, 14% of protein, 20% of sucrose) for a period of 20 hours. After one week, blood and brain were collected and abdominal fat was measured. Western blotting was used to verify the content of tyrosine hydroxylase (TH) and phospho-tyrosine hydroxylase (pTH) in the nucleus accumbens, STAT3 and phospho-STAT3 (pSTAT3) in the hypothalamus. Additionally, BDNF was measured in the serum, in the solitary tract nucleus (NTS) and in the ventral tegmental area (VTA) and glycemia was also verified. Results: Considering the 5 weeks of treatment regarding animals weight gain there was no significant difference between groups and no interaction, only an effect of time (p<0.001). Abdominal fat was higher in HF (p=0.002) and LP (p=0.023) rats comparing to controls. Animals that received HF diet ate less grams of Froot Loopsâ than controls (p=0.003). During the habituation to the BioDAQÒ no significant difference was seen in the consumption of the diet between the groups. When analyzing feeding behavior in the BioDAQÒ, comparing control against high fat groups (C x HF), HF animals had a decrease in the size of the meal (g) (p=0.049), number of portion (p<0.001), meal size in the dark phase (p=0.002), number of portions in the dark phase (p<0.001) compared to controls while the size of the portion in the dark phase (p=0.006) was bigger than controls. Analyzing feeding behavior comparing control against low-protein groups (C x LP) a significant difference was observed in the following parameters: average of the size of the portion (g) (p=0.004), average of the size of the portion in the light phase (g) (p=0.042), average of the size of the meal in the dark phase (g) (p=0.035), average of the size of the portion in the dark phase (g) (p=0.006). LP animals showed a higher average than controls in all parameters. In the food preference test, HF animals showed a lower average than controls in the following parameters: consumption of high sucrose palatable diet (Kcal) (p=0.034), number of meals of high sucrose palatable diet (p=0.016), number of portions of high sucrose palatable diet (p=0.001). HF animals showed higher averages than controls regarding the size of the portion of the high sucrose palatable diet (g) (p=0.023), total PMI (post interval meal) of high sucrose palatable diet (p=0.022) and total satiety of high sucrose palatable diet (p=0.008). In the food preference test comparing controls against low-protein groups (C x LP), LP animals showed a lower consumption of high sucrose palatable diet (Kcal) (p=0.030) and a lower number of portions of high sucrose palatable diet (p=0.003) than control animals. LP animals showed total satiety of high sucrose palatable diet (p=0.046) bigger than controls. There was no significant difference in the glycemia levels between groups. HF animals had pSTAT3 averages higher than controls (p=0.013) and phospho-tyrosine hydroxylase lower than controls (p=0.05). LP animals showed STAT3 lower than control animals (p=0.035) and had BDNF results close to the significance (p=0.053), showing a lower average than control animals. Conclusion: The exposure to different types of diets changes the feeding patterns as well as the body structure. Animals exposed to HF diet as well as those exposed to LP diet showed changes related to a leptin pre-resistant state. BDNF seems to modulate homeostatic and hedonic feeding behavior pathways, however more studies are necessary to a better understanding of the mechanisms. Comportamento alimentar Dieta Dopamina Tirosina hidroxilase Feeding behavior Dopamine Tyrosine hydroxylase BDNF
88	Locus Coeruleus and Hippocampal Tyrosine Hydroxylase Levels in a Pressure-Overload Model of Heart Disease Johnson, Luke A 01 March 2013 (has links) Studies have indicated that approximately 30% of people with heart disease experience major depressive disorder (MDD). Despite strong clinical evidence of a link between the two diseases, the neurobiological processes involved in the relationship are poorly understood. A growing number of studies are revealing similar neuroanatomical and neurochemical abnormalities resulting from both depression and heart disease. The locus coeruleus (LC) is a group of neurons in the pons that synthesize and release norepinephrine, and that is known to play a significant role in depression pathobiology. For example, there is evidence that tyrosine hydroxylase (TH) is elevated in the LC in depression. In addition, there is evidence that the LC plays a role in cardiovascular autonomic regulation. The hippocampus is another region that exhibits abnormalities in both depression and heart disease. In this study, the levels of TH in the hippocampus and LC were examined in the guinea pig pressure-overload model of heart disease. TH levels were also measured in the pressure-overload model treated with vagal nerve stimulation, a new investigational therapeutic intervention in heart disease. This study found that there were no changes in TH levels in the LC or the hippocampus of the pressure-overload model or in the pressure-overload model treated with vagal nerve stimulation. Tyrosine Hydroxylase Locus Coeruleus Hippocampus Cardiovascular Disease Vagus Nerve Stimulation Depression Cardiovascular Diseases Molecular and Cellular Neuroscience
89	A novel role for prolyl-hydroxylase 3 gene silencing in epithelial-to-mesenchymal-like transition Place, Trenton Lane 01 December 2013 (has links) The ability of cells to sense oxygen is a highly evolved process that facilitates adaptations to the local oxygen environment and is critical to energy homeostasis. In vertebrates, this process is largely controlled by three intracellular prolyl-4-hydroxylases (PHD 1-3). These related enzymes share the ability to hydroxylate the hypoxia-inducible transcription factor (HIF), and therefore control the transcription of genes involved in metabolism and vascular recruitment. However, it is becoming increasingly apparent that proline-4-hydroxylation controls much more than HIF signaling, with PHD3 emerging as the most unique and functionally diverse of the PHD isoforms. In fact, PHD3-mediated hydroxylation has recently been purported to function in such diverse roles as sympathetic neuronal and muscle development, sepsis, glycolytic metabolism, and cell fate. PHD3 expression is also highly distinct from that of the other PHD enzymes, and varies considerably between different cell types and oxygen concentrations. This thesis will specifically examine the role of PHD3 expression in cancer cells, with a focus on the mechanisms of PHD3 gene silencing. In the final chapters, I will examine the consequences of this silencing in cancer, and discuss the discovery of a novel role for PHD3 in epithelial-to-mesenchymal-like transition and cell migration. Cell Migration EGLN3 EMT HIF PHD3 prolyl-4-hydroxylase Cell Biology
90	Clonage par simple-hybride de facteurs de transcription régulant le gène de la tyrosine hydroxylase (TH) de rat Kiefer, Hélène 29 May 2002 (has links) (PDF) La tyrosine hydroxylase (TH) est l'enzyme clé de la biosynthèse des catécholamines, classe fondamentale de neurotransmetteurs regroupant la dopamine, la noradrénaline et l'adrénaline. Une expression atypique des catécholamines pourrait conduire à de nombreuses complications neuropsychiatriques. L'étude des facteurs qui régulent le gène de la TH est donc déterminante.<br /><br />Ce travail a pour objectif l'isolement de facteurs de transcription potentiellement impliqués dans l'expression cellulaire restreinte du gène TH de rat. Dans ce but, nous avons développé une stratégie de simple-hybride dans la levure en utilisant la boîte E et les sites octamérique/heptamérique du promoteur TH comme cibles. Deux banques d'ADN complémentaire différentes ont été criblées, issues respectivement de cerveau de rat adulte et de mésencéphale embryonnaire. Ces criblages ont conduit à l'identification de 3 facteurs de transcription candidats : rITF2, un facteur bHLH ubiquitaire déjà décrit pour son aptitude à interagir avec la boîte E du promoteur TH, Lhx9, une protéine LIM à homéodomaine, et ZENON, une nouvelle protéine à doigts de zinc spécifiquement exprimée dans les neurones. La caractérisation de ces 3 facteurs a révélé des propriétés tout à fait intéressantes. Ils sont capables d'interagir spécifiquement avec le promoteur TH, et modulent la transcription du gène TH dans des lignées cellulaires. Leurs patrons d'expression sont complexes et s'inscrivent dans une dynamique développementale très particulière, mais ne sont pas spécifiques du système catécholaminergique. Pour comprendre le rôle de ces facteurs dans l'expression cellulaire restreinte de la TH, nous avons mené une étude de transgenèse des sites cibles utilisés en simple-hybride. La boîte E joue un rôle subtil dans le système catécholaminergique périphérique, illustrant la complexité des mécanismes conduisant à l'expression cellulaire restreinte de la TH. <br /><br />Ce travail souligne les difficultés rencontrées pour isoler des facteurs de transcription impliqués dans des processus d'expression cellulaire restreinte et définit une nouvelle famille de protéines à doigts de zinc, dont ZENON, le premier membre, semble lié au phénotype neuronal. L'identification et l'étude d'autres protéines appartenant à cette famille pourraient donc s'avérer capitales pour la compréhension des mécanismes impliqués dans la mise en place et le maintien des caractères neuronaux au cours du développement. [SDV] Life Sciences Tyrosine hydroxylase simple-hybride transcription différenciation neuronale développement embryonnaire

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