Global ETD Search

101	Effects of Serotonin and Noradrenaline on Neuroplasticity and Excitability of The Primary Motor Cortex in Humans Kuo, Hsiao-I 24 April 2017 (has links) No description available. 610 Neuroplasticity Cortical excitability Serotonin Noradrenaline Medizin (PPN619874732) Psychiatrie (PPN619876344)
102	Mecanismos celulares ativados por agonistas adrenérgicos em aorta de ratos hipertensos renais com disfusão endotelial / Cellular mechanisms activated by adrenergic agonists in the aorta of renal hypertensive rats with endothelial dysfunction Bocalon, Ana Carolina Campos Cotrim 30 September 2014 (has links) O sistema nervoso simpático (SNS) desempenha importante papel sobre o controle da pressão arterial assim como o endotélio, pela liberação de fatores de relaxamento e contração que atuam sobre a modulação do tônus vascular. A hipertensão renovascular (2R-1C) está associada à elevada produção de espécies reativas de oxigênio, hiperatividade do SNS e disfunção endotelial. A hipótese deste trabalho é de que os agonistas adrenérgicos noradrenalina (NOR) e adrenalina (ADR), catecolaminas endógenas, promovam efeito anti-contrátil devido à ativação da eNOS em aorta de ratos 2R-1C. Este estudo teve por objetivo investigar se a ativação de adrenoceptores (AR) com NOR ou ADR leva à maior ativação da eNOS em aortas de ratos 2R-1C do que em 2R e os mecanismos relacionados. Realizamos curvas concentração-efeito para NOR ou ADR, em aortas com ou sem endotélio de ratos 2R e 2R-1C em ausência (controle) ou presença dos antagonistas ?-AR (propranolol), ?2-AR (ioimbina), e inibidor não seletivo da NOS (L-NAME). Por western blot, verificamos a fosforilação do resíduo de ativação da enzima eNOS, Serina1177 (Ser1177), via ativação de ?-AR ou ?-AR, pela NOR ou ADR em aortas com endotélio, de ratos 2R e 2R-1C e se a via PI3K/AKT e o H2O2 estariam envolvidos nesse processo. Avaliamos a produção de NO pelas células endoteliais isoladas de ratos 2R e 2R-1C, por citometria de fluxo. Realizamos a dosagem de NOR e ADR plasmática e tecidual (adrenais) por meio de HPLC. Nos estudos de reatividade vascular avaliamos a potência (pD2) e eficácia (Emax) dos agonistas em induzir contração. O Emax da NOR foi menor na contração de aorta de ratos 2R-1C comparada a 2R, provavelmente devido à maior atividade da eNOS evidenciada pelo efeito do L-NAME em aorta de 2R-1C. A particularidade mais significativa da resposta da NOR é de que em aorta de ratos 2R-1C, a NOR promove a maior fosforilação de Ser1177 via ?-AR, e esta envolve a participação da via PI3K/AKT e do H2O2, não havendo alteração dos níveis plasmáticos e tecidual de NOR entre 2R e 2R-1C. O estímulo com ADR, em aorta de 2R-1C, promoveu aumento da atividade da eNOS, certificada pelo efeito do L-NAME, que pode contribuir para o menor Emax da ADR em 2R-1C do que em 2R. Entretanto, a ADR promoveu maior fosforilação de Ser1177 via ?-AR, em aorta de ratos 2R-1C, e esta não envolve participação da via PI3K/AKT e do H2O2. Os níveis teciduais de ADR foram semelhantes entre 2R e 2R- 1C, mas a concentração plasmática de ADR foi menor em 2R-1C do que em 2R. Não houve diferença na produção de NO pelas células endoteliais entre 2R e 2R-1C. Os resultados obtidos sugerem que a ativação de ?-AR com NOR envolve participação de H2O2 e da via PI3K/AKT para maior ativação da eNOS em aortas de ratos 2R-1C, mecanismo que pode contribuir para o menor Emax da NOR em aorta de 2R-1C. A ADR ao ativar ?-AR leva à maior ativação da eNOS, porém sem participação efetiva de H2O2 e da via PI3K/AKT em aortas de ratos 2R-1C. / The sympathetic nervous system (SNS) plays important role on the arterial pressure control as well the vascular endothelium by relaxing and contractile factors release that modulates the vascular tone. The renovascular hypertension (2K-1C) is related to the increased production of oxygen reactive species, SNS hyperactivity and endothelium dysfunction. The hypothesis of this work is that the adrenoceptor (AR) agonists noradrenaline (NOR) and adrenaline (ADR), the endogenous catecholamine promote anti-contractile effect due to eNOS activation in 2K-1C rat aorta. This study aimed to investigate if AR activation by NOR or ADR leads to the increased activation of eNOS in 2K-1C rat aorta, and the mechanisms activated by these agonists. Concentration-effect curves were constructed for NOR or ADR, in intactendothelium or denuded aortas isolated from 2K-1C and 2K rats in the absence (control) or in the presence of the AR antagonists propranolol (?-AR) or yohimbine (?2-AR), or the non-selective NOS inhibitor, L-NAME. By using western blot, we have veryfied the the effects of activation of ?-AR ou ?-AR and the phosphorylation of NOS activation site Serine1177 (Ser1177) by NOR or ADR in intact endothelium aorta from 2K and 2K-1C and also whether the PI3K/AKT pathway and hydrogen peroxide (H2O2) are related to this phosphorylation. We evaluated by flow cytometry the NO production in the isolated endotelial cells from 2K and 2K-1C. Plasma and tissue (adrenal) levels of NOR and ADR were measured by HPLC. In the vascular reactivity studies, we evaluated the potency (pD2) and efficacy (Emax) of the agonists in inducing contraction. The Emax induced by NOR was lower in 2K-1C than in 2K rat probably due to the higher activity of eNOS as shown by the effect of L-NAME. The most interesting finding was in 2K-1C aorta that NOR increases the Ser1177 phosphorylation via ?-AR activation that involves the signaling trough PI3K/AKT and H2O2. There is no differences in NOR at the plasma and tissue levels between 2K-1C and 2K. ADR activates more eNOS in 2K-1C rat aorta as shown by the effect of LNAME. It could contribute to the lower Emax of ADR in 2K-1C than in 2K. However, ADR increased Ser1177 phosphorylation via ?-AR activation in 2K-1C rat aorta, which does not involve PI3K/AKT and H2O2 pathway. The tissue levels of ADR were not different between 2K-1C and 2K, but the plasma concentration of ADR was lower in 2K-1C than in 2K. There was no difference in the NO production in the endothelial cells from 2K-1C and 2K. Taken together, our results suggest that ?-AR activation by NOR involves H2O2 and PI3K/AKT that activates eNOS in 2K-1C rat aorta that could contribute to the lower contractile effect induced by NOR in 2K-1C. ?-AR activation by ADR leads to the eNOS activation without activation of H2O2 and PI3K/AKT pathway in 2K-1C rat aorta. adrenalina, hipertensão renovascular adrenaline, renovascular hypertension adrenergic agonists agonistas adrenérgicos NO-Sintase NO-Synthase noradrenalina noradrenaline vasoconstrição vasoconstriction
103	Modulation noradrénergique de l’attention / Noradrenergic modulation of attention Guedj, Carole 25 November 2016 (has links) La neuromodulation apporte une extraordinaire richesse à la dynamique des réseaux de neurones. Parmi les neuromodulateurs du système nerveux central, la noradrénaline permettrait de faciliter l'adaptation du comportement face aux variations des contraintes environnementales en modulant l'attention, cette fonction au coeur de la cognition qui nous permet de sélectionner l'information la plus pertinente en fonction de notre but. Ce processus complexe qui opère à chaque instant à la fois dans l'espace et le temps, constitue une étape essentielle dans cette adaptation comportementale. Cependant, à ce jour, les mécanismes par lesquels ce neuromodulateur exerce ses effets sur le cerveau sain demeurent mal connus. Mon travail de thèse a pour objectif d'examiner les déterminants comportementaux et les marqueurs neuronaux de l'effet stimulant des agonistes noradrénergiques. La question posée était : "Comment la noradrénaline agit-elle pour optimiser l'attention?" Pour répondre à cette question, j'ai choisi de combiner la pharmacologie, l'analyse du comportement, et l'imagerie par résonnance magnétique fonctionnelle chez le singe. Un des principaux résultats de mes travaux est que l'administration d'agents noradrénergiques induit une large réorganisation des réseaux cérébraux, qui pourrait être à l'origine de l'optimisation des réponses comportementales observées parallèlement / Neuromodulation provides an extraordinary wealth to the dynamics of neural networks. Among the neuromodulators of the central nervous system, noradrenaline would facilitate behavioral adaptation facing variations of environmental constraints by modulating attention, this function at the heart of cognition that allows us to select the most relevant information based our goal. This complex process that operates at every moment both in space and time, is an essential step in this behavioral adaptation. However, to date, the mechanisms by which this neuromodulator exerts its effects on healthy brain remain unknown. My thesis aims to examine the behavioral and neural markers of the boosting effect of noradrenergic agonists. The question asked was: "How does noradrenaline optimize attention?" To answer this question, I chose to combine pharmacology, behavior analysis, and functional Magnetic Resonance Imaging in monkeys. One of the main results of my work is that the administration of noradrenergic agents induced a large-scale brain networks reorganization, which could be responsible for optimizing behavioral responses observed in parallel Noradrénaline Locus coeruleus Attention Réseau fronto-parietal Réseaux de repos Noradrenaline Locus coeruleus Attention Fronto-parietal network Resting-state networks 612.8
104	Mapeamento dos sítios catecolaminérgicos que aferentam o núcleo pré-mamilar dorsal. / Catecholaminergic imputs to the dorsal premammillary nucleus. Roberto Sobrinho, Cleyton 15 April 2011 (has links) O núcleo pré-mamilar dorsal (PMd), de crucial importância para expressão do comportamento de defesa exibido por roedores durante o confronto com predador natural, odor ou contexto associado, representa o sítio hipotalâmico com maior aumento no número de células imunorreativas a proteína Fos após o confronto predatório. Estudos mostram que a mediação noradrenérgica central é crítica para a expressão das respostas de medo e que tanto as respostas incondicionadas como as contextuais ao odor do gato dependem de sua ação central, mediada pelo PMd. Dada a importância da modulação noradrenérgica no PMd para a expressão das respostas anti-predatórias, investigamos quais grupamentos catecolaminérgicos aferentam o núcleo empregando técnicas de rastreamento retrógrado somado a técnica de imunofluorescência (dupla-marcação). Nossos resultados revelaram que a única fonte de aferência catecolaminérgica para o PMd é oriunda do locus ceruleus, onde encontramos um número conspícuo de células duplamente marcadas, indicando ser este o responsável pelo suporte noradrenérgico ao PMd. / Evidence suggests the medial hypothalamic defensive system plays a pivotal role in processing of predator-derived and contextual-related cues. Fear responses to predatory threats rely heavily on the PMd beta adrenergic neurotransmission. Thus, it has been shown that propranolol significantly reduced PMdFos expression in response to cat odor, and that beta adrenoceptor blockade, in the PMd, reduced defensive responses to both cat odor exposure and cat odor-related context. Given the importance of the noradrenergic innervation of the PMd to the expression of unconditioned and learned fear responses, we have presently investigated the putative noradrenergic source of inputs to the nucleus. To this end, we have combined Fluoro-Gold retrograde tract-tracing and catecholamine immunostaining, and found that the locus ceruleus is seemingly the only source of catecholaminergic source of inputs to the PMd. In addition, the present findings are particularly interesting given the well-documented roles of the locus ceruleus roles in attentional processes. Brain mapping Catecholamines Catecolaminas Hipotálamo Hypothalamus Immunofluorescence of animal Imunofluorescência em animal Mapeamento cerebral Noradrenalina Noradrenaline Rodents Roedores
105	Mecanismos celulares ativados por agonistas adrenérgicos em aorta de ratos hipertensos renais com disfusão endotelial / Cellular mechanisms activated by adrenergic agonists in the aorta of renal hypertensive rats with endothelial dysfunction Ana Carolina Campos Cotrim Bocalon 30 September 2014 (has links) O sistema nervoso simpático (SNS) desempenha importante papel sobre o controle da pressão arterial assim como o endotélio, pela liberação de fatores de relaxamento e contração que atuam sobre a modulação do tônus vascular. A hipertensão renovascular (2R-1C) está associada à elevada produção de espécies reativas de oxigênio, hiperatividade do SNS e disfunção endotelial. A hipótese deste trabalho é de que os agonistas adrenérgicos noradrenalina (NOR) e adrenalina (ADR), catecolaminas endógenas, promovam efeito anti-contrátil devido à ativação da eNOS em aorta de ratos 2R-1C. Este estudo teve por objetivo investigar se a ativação de adrenoceptores (AR) com NOR ou ADR leva à maior ativação da eNOS em aortas de ratos 2R-1C do que em 2R e os mecanismos relacionados. Realizamos curvas concentração-efeito para NOR ou ADR, em aortas com ou sem endotélio de ratos 2R e 2R-1C em ausência (controle) ou presença dos antagonistas ?-AR (propranolol), ?2-AR (ioimbina), e inibidor não seletivo da NOS (L-NAME). Por western blot, verificamos a fosforilação do resíduo de ativação da enzima eNOS, Serina1177 (Ser1177), via ativação de ?-AR ou ?-AR, pela NOR ou ADR em aortas com endotélio, de ratos 2R e 2R-1C e se a via PI3K/AKT e o H2O2 estariam envolvidos nesse processo. Avaliamos a produção de NO pelas células endoteliais isoladas de ratos 2R e 2R-1C, por citometria de fluxo. Realizamos a dosagem de NOR e ADR plasmática e tecidual (adrenais) por meio de HPLC. Nos estudos de reatividade vascular avaliamos a potência (pD2) e eficácia (Emax) dos agonistas em induzir contração. O Emax da NOR foi menor na contração de aorta de ratos 2R-1C comparada a 2R, provavelmente devido à maior atividade da eNOS evidenciada pelo efeito do L-NAME em aorta de 2R-1C. A particularidade mais significativa da resposta da NOR é de que em aorta de ratos 2R-1C, a NOR promove a maior fosforilação de Ser1177 via ?-AR, e esta envolve a participação da via PI3K/AKT e do H2O2, não havendo alteração dos níveis plasmáticos e tecidual de NOR entre 2R e 2R-1C. O estímulo com ADR, em aorta de 2R-1C, promoveu aumento da atividade da eNOS, certificada pelo efeito do L-NAME, que pode contribuir para o menor Emax da ADR em 2R-1C do que em 2R. Entretanto, a ADR promoveu maior fosforilação de Ser1177 via ?-AR, em aorta de ratos 2R-1C, e esta não envolve participação da via PI3K/AKT e do H2O2. Os níveis teciduais de ADR foram semelhantes entre 2R e 2R- 1C, mas a concentração plasmática de ADR foi menor em 2R-1C do que em 2R. Não houve diferença na produção de NO pelas células endoteliais entre 2R e 2R-1C. Os resultados obtidos sugerem que a ativação de ?-AR com NOR envolve participação de H2O2 e da via PI3K/AKT para maior ativação da eNOS em aortas de ratos 2R-1C, mecanismo que pode contribuir para o menor Emax da NOR em aorta de 2R-1C. A ADR ao ativar ?-AR leva à maior ativação da eNOS, porém sem participação efetiva de H2O2 e da via PI3K/AKT em aortas de ratos 2R-1C. / The sympathetic nervous system (SNS) plays important role on the arterial pressure control as well the vascular endothelium by relaxing and contractile factors release that modulates the vascular tone. The renovascular hypertension (2K-1C) is related to the increased production of oxygen reactive species, SNS hyperactivity and endothelium dysfunction. The hypothesis of this work is that the adrenoceptor (AR) agonists noradrenaline (NOR) and adrenaline (ADR), the endogenous catecholamine promote anti-contractile effect due to eNOS activation in 2K-1C rat aorta. This study aimed to investigate if AR activation by NOR or ADR leads to the increased activation of eNOS in 2K-1C rat aorta, and the mechanisms activated by these agonists. Concentration-effect curves were constructed for NOR or ADR, in intactendothelium or denuded aortas isolated from 2K-1C and 2K rats in the absence (control) or in the presence of the AR antagonists propranolol (?-AR) or yohimbine (?2-AR), or the non-selective NOS inhibitor, L-NAME. By using western blot, we have veryfied the the effects of activation of ?-AR ou ?-AR and the phosphorylation of NOS activation site Serine1177 (Ser1177) by NOR or ADR in intact endothelium aorta from 2K and 2K-1C and also whether the PI3K/AKT pathway and hydrogen peroxide (H2O2) are related to this phosphorylation. We evaluated by flow cytometry the NO production in the isolated endotelial cells from 2K and 2K-1C. Plasma and tissue (adrenal) levels of NOR and ADR were measured by HPLC. In the vascular reactivity studies, we evaluated the potency (pD2) and efficacy (Emax) of the agonists in inducing contraction. The Emax induced by NOR was lower in 2K-1C than in 2K rat probably due to the higher activity of eNOS as shown by the effect of L-NAME. The most interesting finding was in 2K-1C aorta that NOR increases the Ser1177 phosphorylation via ?-AR activation that involves the signaling trough PI3K/AKT and H2O2. There is no differences in NOR at the plasma and tissue levels between 2K-1C and 2K. ADR activates more eNOS in 2K-1C rat aorta as shown by the effect of LNAME. It could contribute to the lower Emax of ADR in 2K-1C than in 2K. However, ADR increased Ser1177 phosphorylation via ?-AR activation in 2K-1C rat aorta, which does not involve PI3K/AKT and H2O2 pathway. The tissue levels of ADR were not different between 2K-1C and 2K, but the plasma concentration of ADR was lower in 2K-1C than in 2K. There was no difference in the NO production in the endothelial cells from 2K-1C and 2K. Taken together, our results suggest that ?-AR activation by NOR involves H2O2 and PI3K/AKT that activates eNOS in 2K-1C rat aorta that could contribute to the lower contractile effect induced by NOR in 2K-1C. ?-AR activation by ADR leads to the eNOS activation without activation of H2O2 and PI3K/AKT pathway in 2K-1C rat aorta. adrenalina, hipertensão renovascular agonistas adrenérgicos NO-Sintase noradrenalina vasoconstrição adrenaline, renovascular hypertension adrenergic agonists NO-Synthase noradrenaline vasoconstriction
106	Plasticité anormale et maladie de Parkinson : de l'akinésie à l'hyperkinésie / Deleterious plasticity in Parkinson’s disease from akinesia to hyperkinesia Poisson, Alice 27 November 2014 (has links) Nous avons pris le parti pour cette thèse d'étudier en Imagerie par Résonance Magnétique fonctionnelle deux éléments sémiologiques de la maladie de Parkinson : les mouvements en miroir et l'akinésie. Ces deux phénomènes reflètent une plasticité cérébrale anormale dans cette maladie. Notre première expérience révèle que les mouvements en miroir chez les patients parkinsoniens sont contemporains 1/ d'un défaut d'inhibition, notamment réactive. 2/ de nombreuses hyperactivations, pouvant refléter soit un recrutement compensateur soit une perte délétère de la sélectivité de l'activation corticale. La deuxième expérience s'intéresse à une autre forme d'inhibition, l'inhibition proactive. Nos résultats révèlent que les structures participant au contrôle moteur proactif et notamment le précuneus et les cortex cingulaires postérieur et antérieur sont modulés par le système noradrénergiques chez le sujet sain. Dans une troisième expérience nous avons appliqué ce protocole expérimental à des sujets parkinsoniens. La comparaison avec les données issues de la première expérience révèlent 1/ que les sujets parkinsoniens ont une implémentation anormale du réseau d'inhibition proactive avec une difficulté à se placer en condition de déverrouillage moteur. Ce phénomène pourrait allonger le temps de réaction et participer à l'akinésie. 2/ que l'administration de clonidine renforce encore ce phénomène, en agissant sur les structures antérieures du réseau d'inhibition proactive (cortex cingulaire antérieur et cortex préfrontal dorsomédial). Tous ensembles ces résultats suggèrent une plasticité anormale dans la maladie de Parkinson sousjacente aux mouvements en miroir et à l'akinésie. Celle-ci se traduit 1/ par des défauts d'inhibition, notamment réactive, favorisant l'apparition de mouvements parasites, les mouvements en miroir, 2/ par un renforcement pathologique de l'inhibition proactive qui pourrait participer à l'allongement du temps de réaction et à l'akinésie. La découverte d'une modulation noradrénergique de ce réseau ouvre des portes thérapeutiques nouvelles dans l akinésie parkinsonienne mais également dans l'impulsivité dont certains composants, notamment moteur, semblent être liés à l'inhibition proactive / Mirror movements and akinesia can be both found during Parkinson’s disease. Although very different, they may both reflect an abnormal cerebral plasticity during the disease and the perturbation of the motor inhibitory control. This work reveals that mirror movements are linked to a1/ disruption of the reactive inhibitory control and 2/ to the overactivation of numerous cortical areas. The latter could be the result of a compensatory recruitment aiming at improving the movement. But they could as well reflect a deleterious loss of cerebral activation specificity during Parkinson’s disease. The second experience shows that in healthy subject, the proactive inhibitory control is underpinned by the noradrenergic system. Last but not least the third part of this work reveals an abnormal implementation of the proactive inhibitory control in Parkinson’s disease and suggests its involvement in akinesia. Brought together these results suggest that an abnormal plasticity phenomenon underlies the mirror movements and the akinesia in Parkinson’s disease. More precisely, we observed a default of the reactive inhibitory control associated to mirror movements in Parkinson’s disease and an excess of proactive inhibitory control that seems to be linked to akinesia. The finding of an adrenergic modulation of the proactive inhibitory control opens the fields for the development of noradrenergic therapeutics in akinesia Maladie de Parkinson Mouvements en miroir Akinésie Locus coeruleus Noradrénaline IRMf Parkinson’s disease Mirror movements Akinesia Locus coeruleus Noradrenaline FMRI 612.8
107	The behavioral and neurochemical effects of prenatal stress on stress responsive systems in rats White, David Albert. January 1999 (has links) Thesis (Ph. D.)--West Virginia University, 1999. / Title from document title page. Document formatted into pages; contains xiv, 223 p. : ill. Vita. Includes abstract. Includes bibliographical references (p. 187-220).
108	Mechanizmus účinku katecholaminů v termogenezi izolovaných lidských leukocytů / The Mode of Catecholamine Adrenergic Action in Human Peripheral Mononuclear Blood Cells MIKULKA, Aleš January 2007 (has links) Effects of {$\alpha$}1, {$\alpha$}2, {$\beta$}3 adrenergic agonists on resting oxygen consumption and effects of {$\alpha$} and {$\beta$}2 adrenergic antagonists on noradrenaline stimulated oxygen consumption of the human peripheral blood mononuclear cells (PBMC) were studied using the Clark oxygen electrode. It was found that, the {$\alpha$}2 agonist increases slightly the resting oxygen consumption in the PBMC while, the {$\beta$}2 and the {$\alpha$} antagonists inhibit the noradrenaline stimulated oxygen consumption considerably. The {$\alpha$}1 and {$\beta$}3 agonists have no effect on the resting oxygen consumption. The NA termogenesis in the PBMC is mediated by {$\beta$}1 (25%), {$\beta$}2 (8%) and {$\alpha$}2 (12%) adrenergic receptors and not by {$\beta$}3 adrenoreceptors. The NA thermogenesis in the PBMC is mediated by different adrenoreceptors than the NA thermogenesis in the brown adipose tissue. The NA thermogenesis of PBMC is independent on the presence of organic substrates in the cultivation medium. Administration of external substrates (glucose, glutamine, methionine) to the medium has no effect on resting and NA stimulated oxygen consumption of PBMC, while administration of cysteine increases NA stimulated oxygen consumption considerably, indicating that acetyl-CoA could be an important substrate for NA thermogenesis in PBMC.
109	Mapeamento dos sítios catecolaminérgicos que aferentam o núcleo pré-mamilar dorsal. / Catecholaminergic imputs to the dorsal premammillary nucleus. Cleyton Roberto Sobrinho 15 April 2011 (has links) O núcleo pré-mamilar dorsal (PMd), de crucial importância para expressão do comportamento de defesa exibido por roedores durante o confronto com predador natural, odor ou contexto associado, representa o sítio hipotalâmico com maior aumento no número de células imunorreativas a proteína Fos após o confronto predatório. Estudos mostram que a mediação noradrenérgica central é crítica para a expressão das respostas de medo e que tanto as respostas incondicionadas como as contextuais ao odor do gato dependem de sua ação central, mediada pelo PMd. Dada a importância da modulação noradrenérgica no PMd para a expressão das respostas anti-predatórias, investigamos quais grupamentos catecolaminérgicos aferentam o núcleo empregando técnicas de rastreamento retrógrado somado a técnica de imunofluorescência (dupla-marcação). Nossos resultados revelaram que a única fonte de aferência catecolaminérgica para o PMd é oriunda do locus ceruleus, onde encontramos um número conspícuo de células duplamente marcadas, indicando ser este o responsável pelo suporte noradrenérgico ao PMd. / Evidence suggests the medial hypothalamic defensive system plays a pivotal role in processing of predator-derived and contextual-related cues. Fear responses to predatory threats rely heavily on the PMd beta adrenergic neurotransmission. Thus, it has been shown that propranolol significantly reduced PMdFos expression in response to cat odor, and that beta adrenoceptor blockade, in the PMd, reduced defensive responses to both cat odor exposure and cat odor-related context. Given the importance of the noradrenergic innervation of the PMd to the expression of unconditioned and learned fear responses, we have presently investigated the putative noradrenergic source of inputs to the nucleus. To this end, we have combined Fluoro-Gold retrograde tract-tracing and catecholamine immunostaining, and found that the locus ceruleus is seemingly the only source of catecholaminergic source of inputs to the PMd. In addition, the present findings are particularly interesting given the well-documented roles of the locus ceruleus roles in attentional processes. Catecolaminas Hipotálamo Imunofluorescência em animal Mapeamento cerebral Noradrenalina Roedores Brain mapping Catecholamines Hypothalamus Immunofluorescence of animal Noradrenaline Rodents
110	Effets de la noradrénaline sur les transmissions synaptiques dans la corne dorsale de la moelle épinière de rat / Effects of noradrenaline on synaptic transmissions in the dorsal horn of the rat spinal cord Seibt, Frederik 07 July 2015 (has links) La corne dorsale de la moelle épinière (CDME) est un site d’intégration et de modulation de l’information somatosensorielle. Les laminae profondes de la CDME jouent un rôle important dans la modulation des informations nociceptives. Notre objectif a été de caractériser les effets de la NA sur la transmission synaptique des laminae profondes de la CDME. Nous montrons que la NA facilite la transmission synaptique inhibitrice dans les laminae III-V de la CDME. Ce phénomène met en jeu l’activation d’adrénocepteurs alpha1, alpha2, et bêta et nécessite une communication interlaminaire intacte entre les laminae III-IV et V. L’inhibition du métabolisme glial produit les mêmes effets qu’une section mécanique entre les laminae IV et V. Une interaction entre les cellules gliales et les neurones des laminae profondes la CDME semble donc indispensable à l’effet facilitateur de la NA. / The dorsal horn of the spinal cord (DH) is an important site of integration and modulation of somatosensory information and deep laminae of the DH play an important role in the modulation of nociceptive information in the neuronal network of the spinal cord.Our aim was to characterize the effects of NA on synaptic transmission in deep laminae of the DH.We show that NA facilitates inhibitory synaptic transmission in laminae III-IV of the DH. This phenomenon involves the activation of alpha1, alpha2, and beta adrenoceptors and requires intact interlaminar communications between laminae III-IV and V. Glial cell metabolism inhibition has the same consequences as a mechanical section between laminae IV and V. These results indicate that an interaction between glial cell and deep laminae neurons of the DH seems essential for the facilitatory effect of NA on inhibitory synaptic communications in laminae III-IV of the DH. Moelle épinière Corne dorsale Noradrénaline Transmission synaptique Glie Spinal cord Dorsal horn Noradrenaline Synaptic transmission Glia 572.4 573.8

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