Global ETD Search

31	Planejamento e sintese de compostos potencialmente ligantes dos receptores 5-HT2C e H4 / Design and synthesis of compounds potentially ligands of 5-HT2C e H4 Fernandes, João Paulo dos Santos 30 November 2012 (has links) A serotonina e a histamina são duas das mais importantes aminas biogênicas do organismo. Regulam série de funções fisiológicas, como fluxo sanguíneo, temperatura corpórea, sono, fome, liberação de hormônios, comportamento afetivo e humor, entre outras. Assim, há grande interesse no planejamento e desenvolvimento de fármacos que interferem na transmissão serotoninérgica e histaminérgica, para futura aplicação como antidepressivos, antipsicóticos, ansiolíticos e anorexígenos, além de perifericamente, apresentarem possíveis ações antiinflamatórias. O objetivo deste trabalho é apresentar a síntese de compostos contendo os núcleos pirrolquinolínico, benzoindólico e benzodiidrofurânico com potencial atividade ligante nos receptores 5-HT2C e H4, assim como avaliar a seletividade desses compostos em comparação aos receptores 5-HT2A/B e H3. Sintetizou-se série de compostos utilizando reações de alilação, adição à carbonila, termociclização, rearranjo de Claisen, iodociclização e substituição nucleofílica para a obtenção dos compostos finais. Estudos de otimização de síntese por metodologia de superfície de resposta também são apresentados, assim como estudos de relações quantitativas entre estrutura química e atividade biológica de compostos ligantes dos receptores 5-HT2C e H4. / Serotonin and histamine are two major biogenic amines in the body. They regulate several physiological functions such as blood flow, body temperature, sleep, hunger, hormone release, emotional behavior and mood, among others. Thus, there is great interest in the design and development of drugs that interfere with serotoninergic and histaminergic transmission, for future use as antidepressants, antipsychotics, anxiolytics and anorectic, and peripherally, possible anti-inflammatory actions. The aim of this work is to present the synthesis of compounds containing the pyrroloquinoline, benzoindole and benzodihydrofurane nucleus with potential binding activity to 5-HT2C and H4 receptors, as well as to evaluate the selectivity of these compounds in comparison to 5-HT2A/B and H3. Series of compounds were synthesized using allylation, carbonyl addition, thermal cyclization, Claisen rearrangement, iodocyclization and nucleophilic substitution reactions. Optimization studies for the synthesis using response surface methodology are also presented, as well as quantitative structure-activity relationships studies of ligands of 5-HT2C and H4 receptors. Agonistas serotoninérgicos Anti-histamínicos Antihistamines Drug design Drug synthesis Planejamento de fármacos QSAR QSAR Serotoninergic agonists Síntese de fármacos
32	Neurotoxicidade de pesticidas organofosforados durante o desenvolvimento: alterações bioquímicas e comportamentais / Neurotoxicity of organophosphate pesticides during development: biochemical and behavioral alterations Carla Soares de Lima Prieto 29 May 2013 (has links) Pesticidas organofosforados são amplamente usados e seu uso constitui um grave problema de saúde pública. A ação clássica destes compostos é a inibição irreversível da acetilcolinesterase, promovendo acúmulo de acetilcolina nas sinapses e hiperestimulação colinérgica. No entanto, as consequências da exposição a baixas doses podem se estender a outros mecanismos de ação e sistemas neurotransmissores. Considerando que crianças constituem um grupo particularmente vulnerável aos efeitos de pesticidas, neste trabalho investigamos os efeitos da exposição aos organofosforados metamidofós (MET) e clorpirifós (CPF) durante o desenvolvimento sobre os sistemas colinérgico e serotoninérgico e sobre o comportamento de camundongos. Para isso, camundongos suíços foram expostos a injeções subcutâneas de MET, clorpirifós ou veículo do terceiro (PN3) ao nono (PN9) dias de vida pós-natal. As doses de exposição foram previamente escolhidas através da construção de uma curva dose-resposta que identificou como mais adequadas para este estudo as doses de 1mg/kg de MET e 3mg/kg de CPF, as quais promoveram em torno de 20% de inibição da acetilcolinesterase. Em PN10, parte dos animais foi sacrificada e foram avaliados os sistemas colinérgico e serotoninérgico no tronco encefálico e córtex cerebral. De PN60 a PN63, os animais foram submetidos a uma bateria de testes comportamentais. Em seguida, estes animais também foram sacrificados tendo sido avaliados os sistemas colinérgico e serotoninérgico. Em PN10, MET e CPF causaram alterações que sugerem aumento da atividade colinérgica respectivamente no tronco e córtex em fêmeas. No sistema serotoninérgico, apenas CPF promoveu alterações, aumentando a ligação ao receptor 5HT1A e transportador 5HT em fêmeas e diminuindo na ligação ao 5HT2. Em PN63, a atividade da acetilcolinesterase foi reestabelecida em todos os grupos. Ainda assim, MET diminuiu a atividade da colina acetiltransferase no córtex e a ligação ao transportador colinérgico no tronco. Quanto aos efeitos do CPF, no tronco, houve redução da atividade da colina acetiltransferase em fêmeas e aumento em machos. Sobre o sistema serotoninérgico, MET e CPF promoveram diminuições no 5HT1A respectivamente no tronco e córtex das fêmeas e CPF aumentou a ligação no córtex de machos. A ligação ao 5HT2 foi aumentada após o tratamento com MET e ao transportador 5HT foi diminuída em fêmeas após o tratamento com clorpirifós. Sobre o comportamento, identificamos comportamento associado à depressão em animais expostos a MET e aumento dos níveis de ansiedade, além de prejuízo de aprendizado/memória após exposição à CPF. Desta forma, nossos resultados indicam que a exposição à metamidofós e clorpirifós durante o desenvolvimento é capaz de alterar, de diferentes formas, a atividade colinérgica e serotoninérgica, mesmo que as doses de exposição sejam toxicologicamente equivalentes. Foram verificados efeitos nas vias neuroquímicas logo após a exposição e após um longo período de interrupção do tratamento, indicando efeitos tardios em sistemas importantes que podem estar associados às alterações comportamentais. Finalmente, o presente estudo reforça a associação epidemiológica entre pesticidas e alterações psiquiátricas e a capacidade da programação de alterações a longo-prazo quando a exposição se dá durante o desenvolvimento. / Organophosphate pesticides are widely used and its use consist on a severe public health problem. The classic effect of these compounds involve irreversible inhibition of the enzyme acetylcholinesterase, causing an accumulation of acetylcholine at cholinergic synapses and, consequently, cholinergic hyperstimulation. However, when the doses of exposure are low, other the mechanisms of action may play a role and other neurotransmitter systems may be affected. Considering that children are particularly vulnerable to effects of these compounds, in this study we investigated the effects of methamidophos and chlorpyrifos organophosphate exposure during development on cholinergic and serotonergic systems and behavior. For this purpose, Swiss mice received subcutaneous injections of methamidophos or chlorpyrifos, or vehicle from the third to the nineth postnatal day (PN3 - PN9). Initially, a dose-response study was performed and the doses of 1mg/kg methamidophos and 3mg/kg chlorphrifos, which promoted 20% inhibition of acetylcholinesterase activity in brain were chosen to be used in the next set of experiments. At PN10, one day after exposure, a group of animals was sacrificed and the brainstem and cortex collected and stored to further analysis of cholinergic and serotonergic systems. From PN60 to PN63 the animals were submitted to behavioral tests in order to evaluate: anxiety, locomotor activity, decision making, depressive-like behavior and learning/memory. After the last test, the animals were sacrificed and the brainstem and cortex collected and stored to further analysis of cholinergic and serotonergic systems. At PN10, methamidophos and chlorpyrifos promoted alterations that suggest an increase of cholinergic activity respectively on the brainstem and cortex of females. As for the serotonergic system: only chlorpyrifos elicited alterations: There were increases in 5HT1A receptor and 5HT transporter binding in females and a decrease in 5HT2 receptor binding. At PN63, the activity of acetylcholinesterase had returned to control levels. Despite that, methamidophos elicited a decrease in the activity of choline acetyltransferase in the cortex and in choline transporter binding in the brainstem. As for the serotonergic system, methamidophos and chlorpyrifos promoted decreased 5HT1A receptor binding respectively in the brainstem and cortex of females and chlorpyrifos increased its binding in males. Methamidophos exposure elicited increased 5HT2 binding whereas chlorpyrifos exposure decreased female 5HT transporter binding. Methamidophos elicited behavioral alterations suggestive of increased depressive-like behavior while chlorpyrifos exposure was associated to increased anxiety levels and memory/learning deficits. Our results indicate that metamidophos and chlorpyrifos exposure during development distinctively affect the cholinergic and serotonergic systems even at toxicologically equivalent doses. There were immediate and late-emergent neurochemical effects that may play a role on the behavioral outcomes. Finally, the present study reinforces the epidemiologic association between pesticides exposure and mood disorders and suggest that organophosphate exposure during early development programs for late effects. Organofosforados Desenvolvimento Sistema colinérgico Sistema serotoninérgico Comportamento Organophosphate Development Cholinergic system Serotoninergic system Behavior FISIOLOGIA DE ORGAOS E SISTEMAS
33	Neurotoxicidade de pesticidas organofosforados durante o desenvolvimento: alterações bioquímicas e comportamentais / Neurotoxicity of organophosphate pesticides during development: biochemical and behavioral alterations Carla Soares de Lima Prieto 29 May 2013 (has links) Pesticidas organofosforados são amplamente usados e seu uso constitui um grave problema de saúde pública. A ação clássica destes compostos é a inibição irreversível da acetilcolinesterase, promovendo acúmulo de acetilcolina nas sinapses e hiperestimulação colinérgica. No entanto, as consequências da exposição a baixas doses podem se estender a outros mecanismos de ação e sistemas neurotransmissores. Considerando que crianças constituem um grupo particularmente vulnerável aos efeitos de pesticidas, neste trabalho investigamos os efeitos da exposição aos organofosforados metamidofós (MET) e clorpirifós (CPF) durante o desenvolvimento sobre os sistemas colinérgico e serotoninérgico e sobre o comportamento de camundongos. Para isso, camundongos suíços foram expostos a injeções subcutâneas de MET, clorpirifós ou veículo do terceiro (PN3) ao nono (PN9) dias de vida pós-natal. As doses de exposição foram previamente escolhidas através da construção de uma curva dose-resposta que identificou como mais adequadas para este estudo as doses de 1mg/kg de MET e 3mg/kg de CPF, as quais promoveram em torno de 20% de inibição da acetilcolinesterase. Em PN10, parte dos animais foi sacrificada e foram avaliados os sistemas colinérgico e serotoninérgico no tronco encefálico e córtex cerebral. De PN60 a PN63, os animais foram submetidos a uma bateria de testes comportamentais. Em seguida, estes animais também foram sacrificados tendo sido avaliados os sistemas colinérgico e serotoninérgico. Em PN10, MET e CPF causaram alterações que sugerem aumento da atividade colinérgica respectivamente no tronco e córtex em fêmeas. No sistema serotoninérgico, apenas CPF promoveu alterações, aumentando a ligação ao receptor 5HT1A e transportador 5HT em fêmeas e diminuindo na ligação ao 5HT2. Em PN63, a atividade da acetilcolinesterase foi reestabelecida em todos os grupos. Ainda assim, MET diminuiu a atividade da colina acetiltransferase no córtex e a ligação ao transportador colinérgico no tronco. Quanto aos efeitos do CPF, no tronco, houve redução da atividade da colina acetiltransferase em fêmeas e aumento em machos. Sobre o sistema serotoninérgico, MET e CPF promoveram diminuições no 5HT1A respectivamente no tronco e córtex das fêmeas e CPF aumentou a ligação no córtex de machos. A ligação ao 5HT2 foi aumentada após o tratamento com MET e ao transportador 5HT foi diminuída em fêmeas após o tratamento com clorpirifós. Sobre o comportamento, identificamos comportamento associado à depressão em animais expostos a MET e aumento dos níveis de ansiedade, além de prejuízo de aprendizado/memória após exposição à CPF. Desta forma, nossos resultados indicam que a exposição à metamidofós e clorpirifós durante o desenvolvimento é capaz de alterar, de diferentes formas, a atividade colinérgica e serotoninérgica, mesmo que as doses de exposição sejam toxicologicamente equivalentes. Foram verificados efeitos nas vias neuroquímicas logo após a exposição e após um longo período de interrupção do tratamento, indicando efeitos tardios em sistemas importantes que podem estar associados às alterações comportamentais. Finalmente, o presente estudo reforça a associação epidemiológica entre pesticidas e alterações psiquiátricas e a capacidade da programação de alterações a longo-prazo quando a exposição se dá durante o desenvolvimento. / Organophosphate pesticides are widely used and its use consist on a severe public health problem. The classic effect of these compounds involve irreversible inhibition of the enzyme acetylcholinesterase, causing an accumulation of acetylcholine at cholinergic synapses and, consequently, cholinergic hyperstimulation. However, when the doses of exposure are low, other the mechanisms of action may play a role and other neurotransmitter systems may be affected. Considering that children are particularly vulnerable to effects of these compounds, in this study we investigated the effects of methamidophos and chlorpyrifos organophosphate exposure during development on cholinergic and serotonergic systems and behavior. For this purpose, Swiss mice received subcutaneous injections of methamidophos or chlorpyrifos, or vehicle from the third to the nineth postnatal day (PN3 - PN9). Initially, a dose-response study was performed and the doses of 1mg/kg methamidophos and 3mg/kg chlorphrifos, which promoted 20% inhibition of acetylcholinesterase activity in brain were chosen to be used in the next set of experiments. At PN10, one day after exposure, a group of animals was sacrificed and the brainstem and cortex collected and stored to further analysis of cholinergic and serotonergic systems. From PN60 to PN63 the animals were submitted to behavioral tests in order to evaluate: anxiety, locomotor activity, decision making, depressive-like behavior and learning/memory. After the last test, the animals were sacrificed and the brainstem and cortex collected and stored to further analysis of cholinergic and serotonergic systems. At PN10, methamidophos and chlorpyrifos promoted alterations that suggest an increase of cholinergic activity respectively on the brainstem and cortex of females. As for the serotonergic system: only chlorpyrifos elicited alterations: There were increases in 5HT1A receptor and 5HT transporter binding in females and a decrease in 5HT2 receptor binding. At PN63, the activity of acetylcholinesterase had returned to control levels. Despite that, methamidophos elicited a decrease in the activity of choline acetyltransferase in the cortex and in choline transporter binding in the brainstem. As for the serotonergic system, methamidophos and chlorpyrifos promoted decreased 5HT1A receptor binding respectively in the brainstem and cortex of females and chlorpyrifos increased its binding in males. Methamidophos exposure elicited increased 5HT2 binding whereas chlorpyrifos exposure decreased female 5HT transporter binding. Methamidophos elicited behavioral alterations suggestive of increased depressive-like behavior while chlorpyrifos exposure was associated to increased anxiety levels and memory/learning deficits. Our results indicate that metamidophos and chlorpyrifos exposure during development distinctively affect the cholinergic and serotonergic systems even at toxicologically equivalent doses. There were immediate and late-emergent neurochemical effects that may play a role on the behavioral outcomes. Finally, the present study reinforces the epidemiologic association between pesticides exposure and mood disorders and suggest that organophosphate exposure during early development programs for late effects. Organofosforados Desenvolvimento Sistema colinérgico Sistema serotoninérgico Comportamento Organophosphate Development Cholinergic system Serotoninergic system Behavior FISIOLOGIA DE ORGAOS E SISTEMAS
34	Planejamento e sintese de compostos potencialmente ligantes dos receptores 5-HT2C e H4 / Design and synthesis of compounds potentially ligands of 5-HT2C e H4 João Paulo dos Santos Fernandes 30 November 2012 (has links) A serotonina e a histamina são duas das mais importantes aminas biogênicas do organismo. Regulam série de funções fisiológicas, como fluxo sanguíneo, temperatura corpórea, sono, fome, liberação de hormônios, comportamento afetivo e humor, entre outras. Assim, há grande interesse no planejamento e desenvolvimento de fármacos que interferem na transmissão serotoninérgica e histaminérgica, para futura aplicação como antidepressivos, antipsicóticos, ansiolíticos e anorexígenos, além de perifericamente, apresentarem possíveis ações antiinflamatórias. O objetivo deste trabalho é apresentar a síntese de compostos contendo os núcleos pirrolquinolínico, benzoindólico e benzodiidrofurânico com potencial atividade ligante nos receptores 5-HT2C e H4, assim como avaliar a seletividade desses compostos em comparação aos receptores 5-HT2A/B e H3. Sintetizou-se série de compostos utilizando reações de alilação, adição à carbonila, termociclização, rearranjo de Claisen, iodociclização e substituição nucleofílica para a obtenção dos compostos finais. Estudos de otimização de síntese por metodologia de superfície de resposta também são apresentados, assim como estudos de relações quantitativas entre estrutura química e atividade biológica de compostos ligantes dos receptores 5-HT2C e H4. / Serotonin and histamine are two major biogenic amines in the body. They regulate several physiological functions such as blood flow, body temperature, sleep, hunger, hormone release, emotional behavior and mood, among others. Thus, there is great interest in the design and development of drugs that interfere with serotoninergic and histaminergic transmission, for future use as antidepressants, antipsychotics, anxiolytics and anorectic, and peripherally, possible anti-inflammatory actions. The aim of this work is to present the synthesis of compounds containing the pyrroloquinoline, benzoindole and benzodihydrofurane nucleus with potential binding activity to 5-HT2C and H4 receptors, as well as to evaluate the selectivity of these compounds in comparison to 5-HT2A/B and H3. Series of compounds were synthesized using allylation, carbonyl addition, thermal cyclization, Claisen rearrangement, iodocyclization and nucleophilic substitution reactions. Optimization studies for the synthesis using response surface methodology are also presented, as well as quantitative structure-activity relationships studies of ligands of 5-HT2C and H4 receptors. Agonistas serotoninérgicos Anti-histamínicos Planejamento de fármacos QSAR Síntese de fármacos Antihistamines Drug design Drug synthesis QSAR Serotoninergic agonists
35	Les longs ARN non codants, une nouvelle classe de régulateurs génomique tissu-spécifique : signature moléculaire spécifique des neurones dopaminergiques et sérotoninergiques / Long non coding RNA, a new class of tissu-specific genomic regulators : dopaminergic and serotoninergic neurons specific molecular signatures Gendron, Judith 30 October 2017 (has links) Seul 1,2% du génome code des protéines :98,8% est non-codant,cependant 93% du génome est transcrit, principalement en longs ARN non-codants (lncRNA). Or ces lncRNA constituent une nouvelle classe de régulateurs génomique agissant à tous les niveaux d’expression des gènes et ils sont fortement spécifiques du tissu,modulés au cours du temps et en conditions physiopathologiques.Ainsi,nous proposons que chaque cellule spécifiée exprime son répertoire de lncRNA spécifique avec une carte des zones de chromatines ouvertes renseignant son identité cellulaire.Dans cette perspective,nous avons isolé par FACS 2types cellulaires impliqués dans des pathologies: i) des neurones dopaminergiques humains(nDA) différenciés à partir d’hiPS et ii) des neurones DA et sérotoninergiques (n5-HT)murins.Sur ces 2types neuraux isolés,nous avons identifié 1363 lncRNA exprimés dans les nDA (dont 989nouveaux) constituant le répertoire des neurones DA et 1257 lncRNA dans les n5-HT (719nouveaux) constituant le répertoire des n5-HT.Or leur comparaison a montré que seuls 194 lncRNA sont communs aux 2types cellulaires:la majorité des lncRNA est exprimée soit dans les nDA soit dans les n5-HT,attestant leur spécificité cellulaire.De plus,39%des zones de chromatines ouvertes/potentiellement régulatrices des nDA ne sont pas non plus retrouvées dans les n5-HT.Ainsi, nous avons généré un catalogue d’éléments non codants constituant des signatures moléculaires spécifiques des nDA et n5-HT,ouvrant de nouvelles pistes physiopathologiques:Dans cette optique,les signatures non codantes DA ont été comparées avec les SNP associés à la maladie de Parkinson et des études de fonction sur des lncRNA candidats ont été réalisées. / Only 1.2% of the genome codes for proteins; 98.8% is thus non-coding, despite 93% of the human genome being actively transcribed, mostly in long non-coding RNA (lncRNA).These lncRNA constitute a new class of genomic regulator capable of acting at all levels of gene expression and their expression is highly tissue-specific,modulated during the time and under normal/pathological conditions.Thus, we propose that each specified cell expresses a specific repertoire of lncRNA correlated to open/active chromatin regions specifying its cellular identity.In this context, we isolated by FACS 2neural types involved in many pathologies: i) human dopaminergic neurons (nDA) differentiated from hiPS and ii) DA and serotoninergic (n5-HT) neurons. From these 2neural types, we identified 1,363 lncRNA in nDA (among which 989 new, whether 73%) constituting the repertoire of nDA, and 1,257 lncRNA (among which 719 new) constituting the repertoire of n5-HT. Moreover,their comparison has shown that only 194 lncRNA are common to both neural types:thus the majority of lncRNA is expressed either in nDA or in n5-HT, indicating a high degree of cell-specificity.In addition, 39% of open chromatin regions, potentially regulatory, were also not detected in the n5-HT.Thus, we have generated DA and 5-HT specific catalogues of non-coding elements of the genome, which constitute DA and 5-HT specific molecular signatures, that could participate in deepening our knowledge regarding nDA or n5-HT development and dysfunctions. With this in mind,these DA specific elements have been compared with the SNP described as Parkinson Disease risk variants and candidate lncRNA were selected to perform studies of function. Longs ARN non-codants Dopaminergique Sérotoninergique Neurone Régulateurs génomique ADN non-codant Long non-coding RNA Dopaminergic neurons Serotoninergic neurons 573.8
36	Conception de nouveaux agents iodés pour l'imagerie TEMP des récepteurs 5-HT4 / Design of new iodinated ligands for the SPECT imaging of 5-HT4 receptors Babin, Victor 30 November 2018 (has links) La maladie d’Alzheimer est une maladie neurodégénérative touchant près d’un million de personnes en France et dont les perspectives actuelles laissent suggérer une forte augmentation dans les années à venir. Si les mécanismes biochimiques responsables des symptômes sont connus, aucun traitement curatif n’est aujourd’hui disponible. Parmi les cibles incrimées, le récepteur sérotoninergique 5-HT4 a fait l’objet de nombreuses études et de nombreux ligands ont été synthétisés dans l’optique de trouver un traitement efficace. Cependant, en raison de sa complexité et de sa sensibilité, une étude approfondie du cerveau en conditions fonctionnelles s’avère délicate. C’est pourquoi, l’utilisation des techniques d’imagerie médicale constitue une méthode non invasive et prometteuse pour améliorer les recherches sur ce récepteur en conditions physiologiques et physiopathologiques. Dans la continuité des travaux réalisés au laboratoire depuis plus d’une vingtaine d’années, une nouvelle génération de ligands iodés, a lipophilie réduite, basés sur un système diazaphénanthridine, a été synthétisée. Différentes fonctions hydrophiles ont été introduites et 25 nouveaux composés ont été obtenus et évalués biologiquement. Les meilleurs candidats ont été envoyés en radiomarquage et les images ont montré la capacité de ces ligands à déplacer le radiotraceur de référence in vitro sur coupe de cerveau humain.En parallèle de cette étude, suite aux difficultés rencontrées pour préparer les précurseurs de radiomarquage, une nouvelle technique de radioiodation par activation C-H a été investiguée. Après une mise au point sur les N-tosylbenzamides comme groupement directeur, cette réaction a été exemplifiée sur une quinzaine de groupements directeurs et appliquée à des molécules biologiquement actives plus complexes. / Alzheimer’s disease is a neurodegenerative disorder affecting almost 50 millions people in the world. Even if the biological mechanisms implied on this pathology are known, no treatments stop or reverse its progression. Serotoninergic receptor 5-HT4R is one of the incriminated target and many ligands have been synthesized in order to develop an efficient treatment but a functionnal study of the brain is impossible. That’s why, development of efficient radiotracers is essential for the in vivo evaluation of new drugs targeting 5-HT4R and also for investigation of the receptor involvement in a variety of neurodegenerative and neuropsychiatric disorders. Starting from previsous studies made in the laboratory, a new generation of ligands, focused on diazaphenanthridine scaffold and with reduced lipophilicity, have been designed. Various hydrophilic functions have been introduced and 25 new ligands have been synthesized and biological assays have been realised. Five of this compounds have been radiolabeled and the in vitro imaging experiments on human slice brain showed the ability of the new « hit » compound to move the radioligand of reference and to label the 5-HT4R.Due to the difficulties encountered to the synthesis of tin precursors for the radiolabeling, a new strategy of radioiodation has been developed based on palladium mediated C-H activation. Using first N-tosylbenzamide as directing group for the proof of concept, the scope of this methodology have been enhanced to about fifteen directing groups. Finally, the C-H radioiodation have been applied to more complex biological molecules. Récepteur sérotoninergique 5-HT4 Lipophilie Activation C-H Radioiodation Serotoninergic receptor 5-HT4 Radioligand Lipophilicity C-H activation
37	Early Life Adversity Causes Fear Generalization by Impairing Serotonergic Modulation of the Ventral Dentate Gyrus Dixon, Rushell Sherone January 2023 (has links) Early life adversity (ELA) produces long lasting developmental changes to the postnatal brain, increasing predisposition to a number of physical and psychiatric disorders. The mechanisms through which ELA is able to create lasting detrimental changes to neuronal development remains unclear. This thesis tested the hypothesis that increases in fear generalization, a common symptom in psychiatric disorders, follows ELA exposure in age dependent and sexually dimorphic ways in alignment with the findings of clinical studies. The effects of ELA often impact fear circuitry and we confirmed, using electrophysiology and tissue imaging, that 5-HT circuitry from the median raphe nucleus (MRN), integral to fear response, was impaired following ELA. Using a transgenic mouse model that allows for modulation of serotonergic release, we showed that circumventing serotonergic pathways disrupted by ELA and increasing whole brain 5-HT release was enough to rescue hippocampal dependent fear responses and fear generalization. Involvement of the hippocampus in ELA effects, particularly the ventral dentate gyrus (vDG), in fear overgeneralization was confirmed as hyperactivity in thevDG following exposure to novel contexts was rescued by increased 5-HT release. In addition to ELA-induced hyperactivity of the vDG, known to potentiate stress susceptibility, I demonstrated that ELA resulted in an increase in passive coping strategies, HPA axis dysfunction and elevated stress hormone release. These effects were seen predominantly in adult females and rescued in those with increased 5-HT release. Together these data suggest that increased predisposition to psychiatric disorders following ELA exposure involves the disruption of fear circuitry regulated by 5-HT activity. Identifying the underlying circuits altered by ELA not only provides insight about disrupted postnatal brain development, but also increases our knowledge of the timeline, trajectory and factors affecting healthy postnatal brain development. Psychobiology Neurosciences Mental illness--Etiology Developmental neurobiology Serotoninergic mechanisms Fear--Psychological aspects Dentate gyrus Psychic trauma in children
38	Rôle des neurones sérotoninergiques dans la sclérose latérale amyotrophique / The role of serotoninergic neurons in amyotrophic lateral sclerosis El Oussini-Ben Chaabane, Hajer 12 July 2016 (has links) La sclérose amyotrophique latérale (SLA) est une maladie neurodégénérative due à la dégénérescence des motoneurones supérieurs dans le cortex moteur et des motoneurones inférieurs situés dans la moelle épinière et le tronc cérébral. La perte des neurones moteurs provoque l’atrophie et la paralysie progressive des muscles. Notre laboratoire a démontré en 2013 que la dégénérescence associée à la SLA n’était pas limitée aux motoneurones mais aussi aux neurones sérotoninergiques chez les patients et les modèles animaux de SLA. L’objectif de ma thèse a été de caractériser le rôle des neurones sérotoninergiques dans la SLA. On a observé une augmentation de l’expression du gène codant pour le récepteur 2B de la sérotonine (5-HT2B) chez les modèles murins de SLA. L’analyse du rôle du récepteur 5-HT2B dans le cas de SLA a montré que ce dernier est un modulateur de la maladie. La perte du récepteur 5-HT2B accélère la progression de la maladie et modifie la régulation de la réponse inflammatoire. En plus, nos travaux ont révélé que la perte des neurones sérotoninergiques est à l’origine du développement de la spasticité, un symptôme douloureux chez les patients SLA. Ces résultats ouvrent la voie à des approches thérapeutiques qui ciblent cette population neuronale affectée lors de la maladie pour traiter la spasticité et la neuroinflammation au cours de la maladie. / Amyotrophic lateral sclerosis (SLA) is a neurodegenerative disease characterize by the loss of upper motor neurons in the motor cortex and lower motor neurons in the brainstem and spinal cord. The loss of motor neurons leads to muscle atrophy and progressive paralysis. In 2013 our laboratory identified a new neuronal population affected in ALS. They observed the degeneration of serotoninergic neurons in ALS patients and animal models. For this, the aim of my PhD is to identify the role of serotoninergic neurons in case of ALS. We observed an upregulation of serotonin receptor 5-HT2B in ALS mice models. The investigation of the role of 5-HT2B receptor in case of ALS showed its role as a disease modulator. The loss of 5-HT2B receptor accelerated disease progression and modulated neuroinflammatory response. Moreover, our results showed that the loss of serotoninergic neurons is responsible of the development of spasticity, a painful symptom observed in ALS patients. All these opened the way for therapeutic strategies targeting spasticity and neuroinflammation in case of ALS. Sclérose amyotrophique latérale Neurones sérotoninergiques Récepteur 2B de la sérotonine Spasticité Neuroinflammation Amyotrophic lateral sclerosis Serotoninergic neurons Serotonin receptor 5-HT2B Spasticity Neuroinflammation 573.8 616.8
39	Roles of serotonin 2A receptor in a serotonin syndrome Unknown Date (has links) Serotonin (5-HT) is a neurotransmitter in the central nervous system. Decrease in the brain 5-HT level could induce depression, showing a state of low mood, aversion to motion and feeling of worthlessness. About 12 million adults in the United States have depression. Antidepressants, such as monoamine oxidase inhibitors and selective serotonin reuptake inhibitors, can alleviate the depressive mood by increasing the brain's 5-HT activity, however they can also induce a potentially life-threatening side effect, namely 5-HT syndrome. This syndrome is manifested by neuromuscular hyperactivities, mental disorders and autonomic dysfunctions. Clinical studies have demonstrated that 5-HT2A receptor antagonists could effectively block severe symptoms of patients with the 5-HT syndrome. To understand the underlying mechanisms, in this study we examined the activity of the 5-HT2A receptor in rats with the 5-HT syndrome evoked by a combined injection of clorgyline, a monoamine oxidase inhibitor , and paroxetine, a selective 5-HT reuptake inhibitor. The major findings from my study were that: (1) Chronic clorgyline treatment significantly exacerbated 5-HT2A receptor-mediated symptoms of the 5-HT syndrome animals; (2) The 5-HT2A receptor-mediated symptoms were also aggravated when the 5-HT syndrome animals were housed in warm (32 ÀC) ambient temperature; (3) Blocking 5-HT2A receptors in the medial prefrontal cortex alleviated the 5-HT syndrome through a circuit between raphe serotonergic neurons and medial prefrontal cortex glutamatergic neurons. Taken together, my data demonstrate that the activity of 5-HT2A receptors may be enhanced by chronic antidepressant treatment and warm environmental temperature. / The sensitized 5-HT2A receptor in the medial prefrontal cortex may exacerbate the syndrome through a positive-feedback circuit between medial prefrontal cortex and raphe nuclei, which would result in excessive 5-HT in the brain. This study casts a new light on the underlying mechanisms of the 5-HT syndrome. / by Gongliang Zhang. / Thesis (Ph.D.)--Florida Atlantic University, 2010. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 2010. Mode of access: World Wide Web. Central nervous system--Physiology Neurotransmitter receptors Serotoninergic mechanisms
40	Long-term effects of 3,4- Methylenedioxymethamphetamine (MDMA) on serotonergic and dopaminergic functioning Kohutek, Jodi Lynn 01 January 2003 (has links) Methylenedioxymethamphetamine (MDMA) popularly known as "Ecstasy" continues to gain popularity as a recreational drug that has been shown to increase serotonin and dopamine levels. The present study has demonstrated that repeated exposure to MDMA produces long-term damage to serotonergic and dopaminergic neurons in various regions of the rat brain. Neurotoxic agents Ecstasy (Drug) Rats -- Physiology Serotoninergic mechanisms Dopaminergic mechanisms Biological Psychology

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