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71	Efeito da leptina e da nutrição sobre o perfil de expressão de genes hipotalâmicos em novilhas zebuínas (Bos taurus indicus) no início da puberdade / Leptin and nutrition effect on gene expression profile of hypothalamic genes in Bos taurus indicus heifers on the onset of puberty: an experimental study Juliane Diniz Magalhães 25 June 2010 (has links) Investigou-se o efeito da leptina exógena e do maior consumo de energia, sobre o padrão da expressão de genes no hipotálamo de novilhas zebuínas; de modo a elucidar o mecanismo de sinalização da leptina no hipotálamo e os genes responsáveis pela obtenção da puberdade. Trinta e seis novilhas não púberes, e com idade entre 18 e 20 meses, foram divididas em três grupos experimentais: baixa energia (BAIXA), alta energia (ALTA), baixa energia com administração de leptina recombinante ovina (BAIXA+LEP), totalizando 56 dias de tratamento. Vinte e quatro novilhas foram abatidas ao apresentar sinais de puberdade, sendo eles: concentração de progesterona no soro superior a 1 ng/mL por duas amostras seguidas e presença de corpo lúteo detectável por ultra-sonografia. O hipotálamo foi colhido e armazenado a -80ºC. As amostras foram submetidas à extração do RNA total, tratadas com DNAse I e submetidas à síntese de cDNA. A quantificação relativa de quatro genes candidatos reconhecidamente envolvidos com a sinalização hipotalâmica da leptina em bovinos: NPY, NPY-Y1, NPY-Y4 e SOCS-3, foi feita através de PCR quantitativo (tempo real). Não houve efeito da administração de leptina sobre a expressão do NPY (P=0,70), ou de seus receptores: NPY-Y1 (P=0,27) e NPY-Y4 (P=0,92) no início da puberdade. A expressão de SOCS-3 foi reduzida (P=0,05) no hipotálamo de novilhas tratadas com leptina, o que sugere menor ação inibitória sobre a leptina. Em novilhas alimentadas com dieta de alta energia, a expressão do NPY-Y1 foi reduzida (P=0,04), o que indica que o hipotálamo estaria menos sensível à ação do NPY, permitindo a entrada precoce em puberdade. Nos demais genes estudados, NPY (P=0,75), NPY-Y4 (P=0,92) e SOCS-3 (P=0,24), a dieta não alterou significativamente suas expressões hipotalâmicas. Estudo mais abrangente do efeito da nutrição e da administração de leptina foi realizado através de hibridização em microarranjos de DNA, objetivando a identificação de possíveis genes candidatos, expressos no hipotálamo, que influenciam na obtenção da puberdade em novilhas Nelore tratadas com leptina ou submetidas à dieta de alta energia. Foram encontrados 78 genes cuja expressão foi alterada pela densidade energética da dieta (P=0,05) no hipotálamo das novilhas Nelore, destes foram selecionados os que apresentaram razões de expressão da ordem de 1,4 ou mais, totalizando 20 genes. Entre esses se destaca o gene da β-arrestina 1 (ARRB1), que foi 1,40 vezes mais expresso (P=0,04) em novilhas submetidas à dieta de alta energia, pois atua na mediação da dessensibilização dos receptores acoplados à proteína-G-(GPCRs)1, como os receptores de NPY. Foram encontrados 134 genes diferencialmente expressos (P=0,05) devido a aplicação de leptina. Dentre os 80 genes que apresentaram razões superiores a 1,4, 18 genes tiveram a expressão reduzida, e 62 tiveram a expressão aumentada pela aplicação de leptina. Destes, alguns estão envolvidos na regulação da sinalização da leptina. O gene SRC foi menos expresso (1,64 vezes; P=0,04) em novilhas tratadas com leptina, o que sugere menor ação inibitória pela SHP-2. A proteína SOCS-2 foi 1,43 vezes (P=0,01) mais expressa no hipotálamo de novilhas tratadas com leptina. Sabe-se que, ao contrário de SOCS-1 e SOCS-3, CIS e SOCS-2 não se ligam, ou inibem, as janus kinases. O STAT-3 foi 2,14 vezes (P=0,03) mais expresso em novilhas tratadas com leptina, e sua ativação possibilita a ligação hipotalâmica da leptina com seu receptor (Ob-Rb). As IGFPB-1 e -2 foram mais expressas no hipotálamo de novilhas tratadas com leptina que em novilhas não tratadas, sendo IGFPB-1 1,78 vezes (P=0,04) mais expressa e IGFPB-2 1,89 vezes (P=0,05). As IGFPBs podem desempenhar função de potencialização da ação do IGF-1, ou exercer ação inibitória. Conclui-se que tanto o consumo de energia quanto a aplicação com leptina influenciaram o padrão de expressão gênica no hipotálamo de novilhas Nelore. A modulação da quantidade do receptor do NPY, NPY-Y1, no hipotálamo pode ser uma via importante pela qual a nutrição afeta o início da puberdade em novilhas. E ainda que estudos mais aprofundados de expressão dos genes encontrados nas hibridizações por microarranjo poderão revelar interações mais concisas entre os genes, a nutrição e a leptina na obtenção da puberdade. / It was investigated the effect of exogenous leptin and the high energy intake on gene expression pattern in the hypothalamus of zebuine heifers; in a way to elucidate the mechanism of leptin signaling in hypothalamus and the responsible genes for puberty. Thirty six heifers not in puberty at 18 and 20 months of age were divided in three experimental groups: low energy diet (LOW), high energy diet (HIGH), low energy diet with administration of recombinant ovine leptin (LOW+LEP), totalizing 56 days of treatment. Twenty four heifers were slaughtered when presented the signals of puberty: progesterone serum concentration above 1 ng/mL for two followed weeks and the presence of detectable corpus luteum by ultrasonography. The hypothalamus was collected and stored at -80ºC. Samples were submitted to total RNA extraction, treated with DNAse I and submitted to cDNA synthesis. The relative quantification of four candidate genes admittedly involved with hypothalamic leptin signaling in bovine: NPY, NPY-Y1, NPY-Y4 and SOCS-3, was evaluated through quantitative PCR (real time). There was no effect of leptin administration on NPY expression (P=0.70), or on its receptors: NPY-Y1 (P=0.27) and NPY-Y4 (P=0.92) in the onset of puberty. The expression of SOCS-3 was reduced (P=0.05) in the hypothalamus of heifers treated with leptin, what suggests lower inhibitory action over leptin. In heifers fed high energy diets, the expression of NPY-Y1 was reduced (P=0.04), which indicates that the hypothalamus would be less sensitive to the action of NPY, allowing the precocious onset of puberty. In other studied genes, NPY (P=0.75), NPY-Y4 (P=0.92) and SOCS-3 (P=0.24), the diet did not significantly altered their hypothalamic expressions. A more comprehensive study regarding the effect of nutrition and leptin administration was performed through the hybridization in DNA microarrangements, aiming the identification of possible candidate genes, expressed in hypothalamus that influence in the onset of puberty in Nelore heifers treated with leptin or submitted to high energy diets. It was found 78 genes whose expression was altered by the energy density of the diet (P<0.05) in the hypothalamus of Nelore heifers. From them, it was selected those genes which presented rates of expression in the order of 1.4 or more, totalizing 20 genes. From them, the highlight gene was β-arrestin 1 (ARRB1) which was 1.40 more expressed (P=0.04) in heifers fed high energy diet due to its action in the mediation of receptors desensibilization coupled to protein-G-(GPCRs)1, as the receptors of NPY. It was found 134 genes differently expressed (P<0.05) due to leptin administration. From the 80 genes that presented rates of expression higher than 1.4, 18 genes had their expression reduced and 62 had their expression increased by leptin administration. Some of these 62 genes are involved in the regulation of leptin signaling. The gene SRC was the less expressed (1.64 times; P=0.04) in heifers treated with leptin what suggests lower inhibitory action by SHP-2. The protein SOCS-2 was 1.43 times (P=0.01) more expressed in the hypothalamus of heifers treated with leptin. It is known that on the contrary of SOCS-1 and SOCS-3, CIS and SOCS-2 do not bind or inhibit, as janus kinases. The STAT-3 was 2.14 times (P=0.03) more expressed in heifers treated with leptin and its activation enables the hypothalamic binding of leptin and its receptor (Ob-Rb). The IGFPB-1 and -2 were more expressed in the hypothalamus of heifers treated with leptin than the animals not treated, being the IGFPB-1 1.78 times (P=0.04) more expressed and the IGFPB-2 1.89 times (P=0.05). The IGFPBs could play a function of IGF-1 action enhancer or exert an inhibitory action. It is concluded that both energy intake and leptin administration influenced gene expression pattern in the hypothalamus of Nelore heifers. The modulation of the receptor quantity of NPY, NPY-Y1 in hypothalamus could be an important route in which nutrition affects the onset of puberty in heifers. Moreover, more detailed studies regarding gene expression in hybridization by microarrangement could reveal more concise interactions between genes, nutrition and leptin in the onset of puberty. Microarray Hipotálamo Neuropeptídeo Y PCR quantitativo Reprodução Hyphotalamus Microarray Neuropeptide Y Quantitative PCR Reproduction
72	Dissecting anxiety in the vervet monkey : a search for association between polymorphisms in the corticotropin releasing hormone (CRH) and neuropeptide Y (NPY) genes and anxious behavior Elbejjani, Martine January 2007 (has links) No description available. Anxiety Disorders -- physiopathology. Anxiety Disorders -- genetics. Neuropeptide Y -- genetics.
73	Combined Treatment With Npy Y5 Antagonists and Nan-190 Attenuates Transients in Light-induced Phase Shifts and Potentiates Phase Shifts Only During the Late Subjective Night Costello, Mary K 01 January 2008 (has links) (PDF) Circadian rhythms in physiology and behavior are synchronized by a central pacemaker, the suprachiasmatic nuclei (SCN) of the hypothalamus. Shift work, jet lag and sleep disorders can disrupt circadian rhythms, negatively impacting health and well-being. The SCN pacemaker resets rapidly in response to changes in the daily light cycle, however, adjustment of peripheral oscillators to changing time zones or work shifts is more gradual, leading to internal desynchrony. In addition, many diseases can impair the SCN’s ability to adjust to changes in the light cycle. My research investigated whether combined pharmacological inhibition of neuropeptide Y and serotonin could enhance resetting and attenuate transient cycles in locomotor activity following a sudden change in light exposure. I found that simultaneously blocking neuropeptide Y and serotonin receptors potentiated phase shifts during the late subjective night and significantly reduced transient cycles of locomotor activity in hamsters. Development of treatments that enhance the circadian system’s response to light may alleviate some of the negative health consequences experienced by travelers, shift workers and individuals with disease-related circadian desynchrony. Circadian rhythms sleep-wake disorders jet-lag seasonal affective disorder serotonin neuropeptide Y Neurology
74	A COMPARISON OF OBESITY CANDIDATE GENES IN THE ANABOLIC NEUROPEPTIDE PATHWAY IN THE SAMOAN AND AMERICAN SAMOAN POPULATIONS SMELSER, DIANE T. January 2006 (has links) No description available. Health Sciences, Public Health Obesity Samoan Population Anabolic Neuropeptide Pathway Candidate Gene Association Study Neuropeptide Y
75	The microstructure of food intake under conditions of high-fat diet, social stress and social subordination Melhorn, Susan Jennifer 07 August 2009 (has links) No description available. Behaviorial Sciences Biomedical Research meal patterns social stress social subordination Neuropeptide Y body weight body compostion
76	Chronic variable stress as a rodent model of PTSD; A potential role for neuropeptide Y (NPY) McGuire, Jennifer January 2009 (has links) No description available. Molecular Biology Neurology Neuropeptide Y posttraumatic stress disorder PTSD resilience rat behavior
77	The Role of Forebrain Neuropeptide Y in the Regulation and Development of PTSD-like Behaviors Schmeltzer, Sarah N. January 2016 (has links) No description available. Neurology PTSD Post-traumatic stress Neuropeptide Y NPY fear fear conditioning
78	Effet stimulateur du neuropeptide Y sur la sécrétion du facteur de relâche de la corticostimuline (CRF) par les cellules trophoblastiques du placenta humain Robidoux, Jacques 12 1900 (has links) Thèse numérisée par la Direction des bibliothèques de l'Université de Montréal. / L'accouchement, l'aboutissement ultime de la grossesse, est un processus bien orchestré mettant en œuvre une pléiade de peptides produits par le placenta. Récemment, la mise en évidence d'une relation entre la durée de la grossesse et la concentration plasmatique du facteur de relâche de la corticostimuline (CRF) a permis de proposer un lien entre ce peptide et l'horloge placentaire déterminant la durée de la grossesse. Or, le neuropeptide Y (NPY), un peptide produit abondamment par le placenta tout au long de la grossesse, stimule in vitro la relâche du CRF par le syncytiotrophoblaste. Puisque ce syncytiotrophoblaste est connu pour être, du moins durant le troisième trimestre de la grossesse, la principale origine du CRF circulant, le but de cette thèse est d'étudier les modalités de cet effet du NPY. Les hypothèses principales ayant balisé cette étude ont été: 1) le syncytiotrophoblaste arbore des récepteurs pour le NPY; 2) un mode de relâche du CRF dépendant du calcium est présent dans le syncytiotrophoblaste et 3) la stimulation de la relâche du CRF par le NPY dans les cellules trophoblastiques implique des voies de signalisation en amont et en aval d'une hausse de la concentration du calcium intracellulaire. En premier lieu, étant donné la nature polaire du syncytiotrophoblaste, les études de liaison ont été effectuées en parallèle sur des membranes d'origine apicale (BBM) et basale (BPM) afin de déterminer s'il y a une ségrégation des sites de liaisons pour le NPY. Les résultats obtenus suggèrent l'existence d'une population mixte de sites de liaison du NPY (Y1 et Y3) se retrouvant exclusivement sur les BBM. Par la suite, les voies de signalisation associées aux récepteurs du NPY ont été explorées sur des préparations de BBM ou sur des cellules trophoblastiques en culture primaire. Les résultats obtenus montrent que dans les BBM, l'interaction du NPY avec le récepteur de sous-type Y1 est couplée à l'activation des phospholipases C-P (PLC-P), ces dernières étant responsables, en partie, d'une activation des protéines kinases C (PKCs). L'autre portion de l'activation de ces PKCs étant attribuable à l'activation des kinases de la position D3 des phosphoinositides (PI3-K). Les résultats obtenus à l'aide des cellules trophoblastiques montrent que le NPY entraîne l'activation de la kinase dépendante du calcium et de la calmoduline de type II (CaMK.11) et des MAP kinases de type ERKv2 (ERKv2). En troisième lieu, afin de vérifier lesquelles de ces voies de signalisation sont impliquées dans le contrôle de la relâche du CRF par le NPY, nous avons, dans un premier temps, caractérisé l'habileté des cellules trophoblastiques à sécréter le CRF. Cette étape importante montre que les cytotrophoblastes issus de placentas à terme, acquièrent, en parallèle avec leur différenciation vers le phénotype apparenté au syncytiotrophoblaste, l'habileté de sécréter le CRF. En dernier lieu, nous avons démontré que le NPY, en interagissant avec des récepteurs de type Y1, induit la synthèse et la relâche du CRF par les cellules trophoblastiques. L'augmentation de la synthèse est, en grande partie, attribuable à l'activation des PLC-P, la relâche subséquente du calcium des réserves intracellulaires et à l'activation de la CaMKII. L'augmentation de la relâche est subséquente à l'activation de PKCs indépendantes du calcium, à l'activation de l'axe initié par les PLC-P et à un influx calcique ne passant pas par les L-VOCC. Intéressement, l'activation directe des LVOCC avec le Bay K8644, bien qu'entraînant l'activation des CaMKII, favorise la relâche du CRF sans influencer la synthèse du peptide. Pris dans leur globalité, ces résultats illustrent bien la pluralité de la signalisation des récepteurs de sous-type Y 1 et la complexité du contrôle de la relâche du CRF par le NPY. De plus, ces résultats sont une étape importante dans la compréhension des mécanismes qui permettent aux peptides interagissant avec un récepteur couplé aux protéines liant les nucléotides guanyliques (protéines G), sensibles à la toxine pertussique (PTX), de réguler la relâche du CRF. Accouchement Grossesse Syncytiotrophoblaste Neuropeptide Y (NPY) Medicine / Médecine (UMI : 0564)
79	Regulation of human endocardial endothelial cells' secretion of endothelin-1 by neuropeptide Y Abdel-Samad, Dima January 2008 (has links) Endocardial endothelial cells (EECs) can exert a significant influence on cardiac function by releasing various factors such as nitric oxide (NO), prostanoids, endothelin-1 (ET-1) and angiotensin II (Ang II). Recently, results obtained in our laboratory demonstrated the presence of NPY and its receptors, Y[subscript 1] and Y[subscript 2], as well as ET-1 and its receptors, ET[subscript A] and ET[subscript B], at the level of endocardial endothelial cells (EECs). We have also shown that NPY induces a sustained rise in the intracellular calcium level of these cells, and that only right ventricular EECs have the capacity of secreting NPY. Moreover, the evidence in the literature has become plentiful about complex interactions existing between ET-1 and other cardioactive mediators, such as NO and Ang II. Based on the above-mentioned data, the objective of this study was to investigate if a dialogue equally exists between the systems of NPY and ET-1 at the level of human right (hREECs) and left (hLEECs) ventricular EECs. Using the technique of indirect immunofluorescence coupled to 3-D confocal microscopy, as well as ELISA, our results show that increasing concentrations of NPY (10[superscript -15], 10[superscript -10] and 10[superscript -5]M) induce the release of ET-1 from REECs and LEECs in a time- and dose-dependent fashion. However, right ventricular EECs seem to have a higher ET-1 secretory capacity as compared to their left counterparts. Upon the use of selective antagonists for the NPY receptors, Y[subscript 1], Y[subscript 2] and Y[subscript 5], and the ET-1 receptors, ET[subscript A] and ET[subscript B], our results demonstrated that in REECs the NPY-induced release of ET-1 seems to be primarily due to Y[subscript 2] receptor activation, with the subsequent activation of the ET[subscript A] and ET[subscript B] receptors by the released ET-1. On the other hand, in LEECs, the NPY-evoked secretion of ET-1 seems to be mainly the result of Y[subscript 5] receptor activation by NPY. Unlike REECs, the ET-1 released by NPY in this type of cells does not seem to be contributing further to its own release by activation of its ET[subscript A] and ET[subscript B] receptors. Therefore, our results suggest that NPY is a regulator of ET-I secretion at the level of human EECs, and that this secretory process of ET-1 is different between the right and left ventricular cells. Moreover, these results serve to highlight and endorse the important sensory and tuning roles that right and left ventricular EECs possess, respectively. The ability of EECs to contribute to the local as well as systemic release of factors, such as NPY and ET-1, can affect not only the excitation-secretion coupling of EECs and the excitation-contraction coupling of cardiomyocytes, but also the physiological and pathophysiological state of the underlying, heart muscle. NPY-induced ET-1 secretion Human endocardial endothelial cells Endothelin-1 Neuropeptide Y
80	Functional Studies of the Neuropeptide Y System : Receptor-Ligand Interaction and Regulation of Food Intake Åkerberg, Helena January 2009 (has links) The members of the mammalian neuropeptide Y family, i.e. the peptides neuropeptide Y (NPY), peptide YY (PYY) and pancreatic polypeptide (PP), are all involved in regulation of food intake. In human and most other mammals they act via receptors Y1, Y2, Y4 and Y5. NPY is released in the hypothalamus and is one of the strongest appetite-stimulating neurotransmitters whereas PP and PYY are secreted from gut endocrine cells after meals and function as appetite-reducing hormones. This thesis describes studies of the NPY system at both the molecular and the physiological level. The first part describes two investigations of receptor-ligand interactions with the human Y1 and Y2 receptors. The results clarify the importance of several amino-acid residues of the human Y1 receptor. Three amino acids previously suggested by others to form a binding pocket for the carboxy-terminus of the peptide were confirmed to be crucial for interaction with peptide ligands. However, they were found to be too distantly located from each other to be able to form a binding pocket. Further investigation of the three corresponding positions in the human Y2 receptor showed that only one of the positions was important for interaction with full-length peptides. The results indicate overlapping but, surprisingly, non-identical binding of the different peptides to human Y1 and Y2 receptors, despite the fact that the two receptors share a common ancestor. The second part of the thesis describes an investigation of the effect of PP on food intake in six beagle dogs and a test for personality characteristics in dogs (TFPC). Treatment with physiological doses of PP decreased both the appetitive and the consummatory drive but had no effect on the amount food consumed. The TFPC protocol was used to map individual behavioral differences in a population of sixteen beagle dogs. The test, which included several situations that may appear in an experimental study, revealed considerable inter-individual differences in behavioral responses despite the fact that the dogs were born and housed in the same animal facility in constant controlled conditions. These results demonstrate that PP can influence food intake in distantly related mammals and emphasize the importance of considering differences in personality in experimental animals. neuropeptide Y G-protein coupled receptor (GPCR) site-directed mutagenesis pancreatic polypeptide food intake dog Pharmacology Farmakologi

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