Global ETD Search

101	L’amphétamine intra-habenulaire n’altère pas l’effet de récompense induit par la stimulation électrique du raphé dorsal Duchesne, Vincent 08 1900 (has links) La contribution de la neurotransmission dopaminergique dans le noyau accumbens à l’effet de récompense induit par la stimulation électrique du cerveau a été l’objet de plusieurs années de recherche. Cependant, d’autres sites recevant des terminaisons dopaminergiques pourraient contribuer à moduler la récompense dans d’autres régions cérébrales. Parmi elles, on retrouve l’habenula qui reçoit des projections dopaminergiques de l’aire tegmentale ventrale. La contribution de cette voie au phénomène de récompense en général et à l’effet de recompense induit par l’autostimulation intracrânienne est peu connue. Le but de cette recherche était d’étudier la contribution de la dopamine mésohabenulaire à l’effet de recompense induit par la stimulation électrique du raphé dorsal. Des rats ont été implantés d’une bicanule dans l’Hb et d’une électrode dans le raphé dorsal. Le paradigme du déplacement de la courbe a été utilisé pour évaluer les changements dans l’effet de récompense à la suite de l’injection intra-habenulaire d’amphétamine (10-40 μg). À titre de contrôles positifs, des rats ont reçu l’amphétamine dans le core et dans le shell (1-20 μg) du noyau accumbens. Les injections d’amphétamine dans l’habenula n’ont pas changé l’effet de récompense induit par la stimulation électrique. Dans le noyau accumbens, les injections dans le shell et le core provoquent des augmentations dans l’effet de récompense comme il a déjà été démontré. Nos résultats suggèrent que la neurotransmission dopaminergique dans l’habenula latérale ne contribue pas significativement au circuit soutenant l’effet renforçant de la stimulation électrique du cerveau. / The contribution of nucleus accumbens dopamine neurotransmission to reward and reinforcement has been the focus of many years of study. Other terminal sites have received comparatively less research attention, but may be potentially important. One of these sites is the lateral habenula, which receives dopaminergic innervation from cells arising from the ventral tegmental area. Very little is known about the contribution of this pathway to reward in general and to the rewarding effect of electrical brain stimulation in particular. The goal of this study was to study the contribution of mesohabenular dopamine to reward induced by electrical stimulation of the dorsal raphe. Male Sprague-Dawley rats were implanted with bilateral cannulae in the lateral habenula and a stimulation electrode aimed at the dorsal raphe nucleus. Using the curveshift paradigm, we measured the rewarding effect of intra-habenular infusions of amphetamine (10-40 μg). Control rats received amphetamine infusions into nucleus accumbens core or shell subregions (1-20 μg). Our findings show that regardless of concentration, intra-habenular amphetamine did not alter brain stimulation reward. Infusions into the nucleus accumbens enhanced the rewarding effectiveness of the stimulation, as previously shown. Our findings suggest that dopaminergic neurotransmission within the lateral habenula does not contribute significantly to the circuitry that mediates the rewarding effect of electrical brain stimulation. Autostimulation intracérébrale Intracranial self-stimulation Récompense Reward Dopamine Dopamine Amphétamine Amphetamine Habenula Habenula Noyau accumbens Nucleus accumbens Core Core Shell Shell
102	The role of lateral hypothalamic neuropeptides in drug addiction and feeding behavior Georgescu, Dan. January 2004 (has links) (PDF) Thesis (Ph. D.) -- University of Texas Southwestern Medical Center at Dallas, 2004. / Vita. Bibliography: 127-149.
103	Striatum, Dopamine et Automatisation dans l’Addiction à la Cocaïne et dans la Rechute : Investigation Pharmacologique et Comportementale / Striatum, Dopamine and Automatism in Cocaine Addiction and Relapse : Pharmacological and Behavioral Investigation Costa Campos, Renan 18 December 2017 (has links) L'un des aspects les plus problématiques de l’addiction est la vulnérabilité à la rechute qui persiste même longtemps après la disparition des symptômes de sevrage. Les modèles rongeurs d'auto-administration (AA) démontrent que la réexposition à la drogue, les stimuli associés à la drogue ou le stress sont des déclencheurs majeurs de la rechute. Bien que les différentes catégories de drogues varient dans leurs mécanismes pharmacologiques primaires, elles partagent toutes un effet aigu d'augmentation des niveaux de dopamine (DA) dans le striatum. Après une utilisation répétée, les propriétés addictives des psychostimulants tels que la cocaïne (COC) sont sous-tendues par la mise en place de neuroadaptations persistantes dans le système DA (SDA) mésocorticolimbique. Le striatum est une cible majeure du SDA et, dans cette région, la DA agit sur deux familles de récepteurs (D1R et D2R) séparées positionnées sur les neurones épineux moyens (NEM) et donnant naissance à deux voies de sorties striatales différenciées et ayant des rôles différents dans l’addiction.Des travaux antérieurs dans notre équipe ont montré une implication différentielle de ces deux sous-types de récepteurs DA sur le rétablissement du comportement de recherche de COC. Alors que l'administration systémique d'un agoniste D2R induisait de puissants effets de rétablissement de recherche de cocaïne sur des rats entraînés à s'autoadministrer de la COC, l'administration systémique de l'agoniste D1R n’avait aucun effet (Dias et al, 2003).Les sous-régions ventrale (noyau accumbens) et dorsale du striatum (caudate putamen) sont modulées par l’innervation dopaminergique du mésencéphale ventral (VTA, substance noire) et la plasticité induite par la cocaïne dans ces circuits est supposée sous-tendre plusieurs aspects du comportement de recherche de drogue (Pierce and Vanderschuren, 2010). C’est pourquoi la première section de ce travail comprend une description de trois expériences réalisées dans le but d'étudier la participation des récepteurs DA du striatum au niveau ventral et dorsal à la réinstallation du comportement de recherche de cocaïne. / For many, drug taking may continue on an occasional basis for a long time; however, some individuals lose control of their drug use and are unable to stop. The transition from casual use to addiction is accompanied by drug-induced changes in the brain, followed by associated changes in behavioral functions. One of the most problematic aspects of addiction is the enduring vulnerability to relapse that persists even long after withdrawal symptoms have abated. Rodent models of drug self-administration (SA) show that re-exposure to the drug itself, drug associated cues or stress are major triggers of relapse. While different classes of drugs vary in their primary pharmacological mechanisms, they all share an acute effect of raising dopamine (DA) levels in the striatum. Following repeated use, the addictive properties of psychostimulants such as cocaine (COC) are believed to take place through the induction of neuroadaptations within the mesocorticolimbic DA system.The striatum is a major target of the DA system, where DA acts on two families of metabotropic receptors (D1-like or D2-like) that are segregated into two pathways of medium spiny neurons (MSNs) and have different roles in addiction and relapse. For instance, while systemic D2 receptor (D2R) stimulation induces reinstatement of COC seeking in rats, D1 receptor (D1R) stimulation does not. DA signaling in the nucleus accumbens (NAcc) responds to rewarding and aversive stimuli; in turn, the dorsolateral striatum (DLS) plays a key role in the transition to compulsive use, and the habitual aspects of drug-seeking after prolonged drug SA. Despite several works examining their role in relapse, the results remain somewhat unclear. Given their critical but differential involvement in COC seeking, here we investigated the role of D1R and D2R receptors of the NAcc and DLS in relapse, employing pharmacological manipulations, as well as assessing their protein expression using an animal model of COC SA. Our results showed a double dissociation between the actions of both DA receptors (DARs) in the striatum. Pharmacological activation of the D1R, but not D2R of the NAcc induces reinstatement of COC seeking, whereas the same effect is triggered by the activation of D2R, but not D1R of the DLS. Also, the reinstating effects of the systemic D2R stimulation is blocked by D1R or D2R antagonists injected into the NAcc or D1R antagonist into the DLS, while being blunted by the D2R inhibition in the DLS. These results convey an interaction between both receptor subtypes, likely relying on ascending spiraling connections associating the ventral and the dorsal striatum through midbrain-reaching loops. Finally, we found the reinstatement of COC seeking elicited by D1R or D2R agonists in either region is not due to changes in DAr expression.These results enticed us to examine the behavioral mechanisms underpinning reinstating behavior. Though initially goal-directed, COC seeking is argued to become habitual after extended training. This progression is believed to initially elicit functional changes within the NAcc, and gradually hijack the circuitry of the dorsal striatum. The activation of D1R in the NAcc and D2R in the DLS has been associated with the processing of rewarding properties and habitual responding for drugs, respectively. Therefore, we aimed to assess whether the reinstatement of COC seeking triggered by the D2R stimulation within the DLS would involve incentive motivational or reinforcing processes likely underlying those induced by the D1R stimulation within the NAcc. Also, we aimed to assess whether the D1R stimulation within the NAcc involves the overtaking of the behavioral control by habitual stimulus-response mechanisms which may be involved in the reinstatement of drug-seeking after the D2R stimulation in the DLS. Récepteurs dopaminergiques D1 et D2 Noyau accumbens Striatum dorsolateral Comportement habituel Dopaminer receptors D1 and D2 Nucleus accumbens Striatum dorsolateral Reinstatement Habit based behavior
104	Reversão dos efeitos reforçadores da morfina através do prejuízo da reconsolidação da memória do condicionamento de preferência por local e da sensibilização locomotora Boos, Flávia Zacouteguy January 2016 (has links) A dependência de drogas é um transtorno multifatorial complexo que se desenvolve em uma minoria de indivíduos que fazem uso dessas substâncias. Memórias associativas entre a droga e o contexto funcionam como gatilho para disparar comportamentos não adaptativos de busca e consumo, além de recaídas após períodos de abstinência. Subjacentes a essas mudanças comportamentais, existem modificações nas subunidades de receptores glutamatérgicos do tipo AMPA em estruturas envolvidas com memória (Hipocampo) e recompensa (Núcleo Accumbens). Por isso, estratégias que enfraqueçam a associação do contexto com a droga e que aprofundem o conhecimento dos circuitos envolvidos nesses comportamentos são de extrema relevância terapêutica. A memória quando evocada pode passar por dois processos pós-evocação: a extinção, em que uma nova memória é formada inibindo uma prévia associação, e a reconsolidação, em que a memória original entra em um estado lábil e suscetível a modificações, em que é possível enfraquecê-la através da inibição de sua reconsolidação. A reconsolidação da memória mostra-se uma estratégica mais eficaz e duradoura em relação à extinção, já que a memória original é modificada. Como modelo animal para o estudo da memória na dependência de drogas, o condicionamento de preferência por local (CPL) é bastante utilizado e sabe-se que é possível enfraquecer a preferência através do bloqueio da reconsolidação. Porém, são escassos os estudos que investigaram a existência da reconsolidação no modelo de sensibilização locomotora, que parece ocorrer, na maioria dos casos, em condição dependente do contexto de aquisição do comportamento, embora existam exemplos que demonstrem sua independência. As questões a serem respondidas neste trabalho são (a) se é possível reverter conjuntamente a preferência por local e a sensibilização locomotora à morfina (5 mg/kg) em ratos Wistar adultos machos, inibindo-se a síntese proteica com cicloheximida (CHX) i.p. logo após uma sessão de reativação contextual da memória no CPL, (b) se a reversão dos comportamentos reflete alterações (já descritas por outros autores) em GluA1, GluA1p (Ser845) e GluA2, no Hipocampo dorsal (HPCd) e no Núcleo Accumbens (NAc), e (c) se o mesmo tratamento em ambas estruturas reverte os dois parâmetros avaliados – comportamental e neuroquímico – de forma diferente ou igual. Nossos resultados mostraram ser possível reverter a preferência por local e a sensibilização locomotora por inibição sistêmica de síntese proteica, e que o condicionamento com exposição à morfina induz alterações nas subunidades analisadas de AMPA, conforme verificado no HPCd e NAc, embora a CHX não tenha produzido um efeito tão bem definido. Os animais que receberam infusões centrais no HPCd e NAc (central) não exibiram preferência por local, nem sensibilização. Em conjunto, nossos resultados mostraram, pela primeira vez em um mesmo desenho experimental, que é possível reverter diferentes aspectos da memória de recompensa (preferência e sensibilização) por meio do bloqueio da reconsolidação. / Drug addiction is a complex and multifactorial disorder that develops in a few people who use these substances. Associative memories between the drug and context of use act as a trigger for maladaptive behavior such as drug seeking and drug use, in addition to relapse after an extended period of withdrawal. Underlying these behavioral changes are modifications in glutamatergic reception (AMPA) in structures involved with memory (Hippocampus) and reward (Nucleus Accumbens). Therefore, strategies that weaken the drug and context association and deepen knowledge of circuits involved in these behaviors are extremely relevant therapeutically. When retrieved, a memory can undergo two distinct processes post-retrieval: extinction, in which a new memory inhibiting a previous association is generated, and reconsolidation, in which the original memory can enter a labile state and is susceptible to modifications, when it can be weakened by inhibition of its reconsolidation. Reconsolidation of memory has been shown to be a more effective and long lasting strategy in relation to extinction, since the original memory is modified. An animal model for studying drug addiction, conditioned place preference (CPP) is largely used and it is well known that it is possible to weaken preference by disrupting reconsolidation. However, there are few studies that investigate the existence of reconsolidation in a locomotor sensitization paradigm, which seems to occur in a condition dependent on context of acquisition, although some works report its independence. The questions answered in this work were (a) if it is possible to reverse both, context preference and locomotor sensitization to morphine (5mg/kg) by protein synthesis inhibition (CHX) after a contextual memory reactivation session in CPP, (b) if the disruption of behaviors reflects a reversal of changes of GluA1, GluA1p (Ser845) e GluA2 in dorsal Hippocampus (dHPC) and Nucleus Accumbens (NAc) and (c) if the same treatment in these structures differentially reverts the two parameters assessed. Our results indicate that it is possible to revert context preference and locomotor sensitization via systemic disruption of protein synthesis and that morphine conditioning induces changes in AMPA subunits in dHPC and NAc, although CHX did not have an evident effect on molecular reversal. Animals cannulated in dHPC and NAc core did not induce preference or sensitization. Taken together, our results demonstrated, for the first time, using the same experimental design that is possible to revert different aspects of reward memory (preference and sensitization) by disrupting the reconsolidation process. Memória Hipocampo Núcleo accumbens Locomoção Morfina Morphine Conditioned place preference Locomotor sensitization Memory Reconsolidation Dorsal hippocampus Nucleus accumbens Cicloheximide GluA1 GluA2
105	Compartimentalização do núcleo acumbens e sua relação com as aferências do córtex pré-frontal. / Compartmental organization of the nucleus accumbens and its relationship with prefrontal afferents. Aline Coelho Macedo 29 January 2014 (has links) O núcleo acumbens (Acb) é subdividido em core e shell (AcbSh). Há evidências que as divisões do Acb vão além da dicotomia core-shell e que regiões pobres em tirosina hidroxilase (TH) e calretinina (Calr) formam um sistema de corredores no AcbSh. Para detalhar melhor a organização do Acb investigamos a distribuição de TH, Calr, DARPP-32 e do transportador de dopamina (DAT). Em seguida, foi comparada a distribuição destes marcadores com a das subunidades GluA2/3 dos receptores de glutamato do tipo AMPA. Finalmente, exploramos se as aferências pré-frontais são direcionadas à distintos compartimentos do AcbSh. Nossos resultados revelaram que regiões que contém neurônios GluA2/3+ intensamente marcados formam um sistema de corredores no AbSh que coincide com áreas pobres em TH, Calr e DAT. Os experimentos de rastreamento anterógrado indicaram que somente uma pequena parte das aferências pré-frontais é direcionada aos corredores. Nossos resultados delinearam um sistema de corredores no AcbSh que provavelmente constitui um compartimento neuroquímico altamente especializado. / The nucleus accumbens (Acb) is subdivided in core and shell (AcbSh). There is evidence that accumbal subdivisions go beyond this core-shell dichotomy and that regions poor in tyrosine hydroxylase (TH) and calretinin (Calr) form a corridor system in the Acbsh. To better detail accumbal organization, we investigated the distribution of TH, Calr, DARPP-32 and of the dopamine transporter (DAT). Then we compared the distribution of these markers with that of the AMPA-type glutamate receptor subunits GluA2/3. Finally, we explored whether prefrontal afferents are directed to distinct AcbSh compartments. Our findings revealed that regions containing intensely labeled GluA2/3+ neurons form a corridor system in the AcbSh that coincides with regions poor in TH, Calr, and DAT. Anterograde tracing experiments indicated that only a small portion of the prefrontal afferents is specifically related to the corridors. Our findings delineated a complex corridor system in the AcbSh which might constitute a highly specialized neurochemical compartment. AMPA Córtex pré-frontal DARPP-32 Dopamina Glutamato Neurotransmissores Núcleo acumbens AMPA DARPP-32 Dopamine Glutamate Neurotransmitters Nucleus accumbens Prefrontal cortex
106	N-acetilcisteína bloqueia o desenvolvimento da sensibilização comportamental ao etanol e as alterações na proteína (Delta)FosB Silva, Gessynger Morais 26 February 2016 (has links) Submitted by Luciana Sebin (lusebin@ufscar.br) on 2016-10-10T13:15:34Z No. of bitstreams: 1 DissGMS.pdf: 1736443 bytes, checksum: 9e6aa510fda128c4e4722add3ed4b7ed (MD5) / Approved for entry into archive by Marina Freitas (marinapf@ufscar.br) on 2016-10-13T20:11:02Z (GMT) No. of bitstreams: 1 DissGMS.pdf: 1736443 bytes, checksum: 9e6aa510fda128c4e4722add3ed4b7ed (MD5) / Approved for entry into archive by Marina Freitas (marinapf@ufscar.br) on 2016-10-13T20:11:13Z (GMT) No. of bitstreams: 1 DissGMS.pdf: 1736443 bytes, checksum: 9e6aa510fda128c4e4722add3ed4b7ed (MD5) / Made available in DSpace on 2016-10-13T20:11:25Z (GMT). No. of bitstreams: 1 DissGMS.pdf: 1736443 bytes, checksum: 9e6aa510fda128c4e4722add3ed4b7ed (MD5) Previous issue date: 2016-02-26 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / Ethanol addiction is a serious public health problem that still needs more effective pharmacological treatment. A key factor in the development and maintenance of this disease is the development of neural plasticity that occurs in the mesocorticolimbic brain pathway upon chronic ethanol abuse. These plasticity events are, in general, maladaptive and affect numerous neurotransmitter systems and intracellular molecules. One of these molecules is ΔFosB, a transcriptional factor that is altered after chronic drug use. Behavioral sensitization is a phenomenon resulting from repeated administration of abuse drugs useful for the study of the neural alterations related to addiction. Recent works have shown a role for the imbalance of glutamatergic neurotransmission in the symptoms found in addicted people. In this line, the treatment with N-acetylcysteine, a L-cysteine prodrug that acts restoring extrasynaptic concentrations of glutamate through the activation of cystine-glutamate antiporter, has shown promising results in the treatment of psychostimulant addiction. Thus, we evaluated the effects of N-acetylcysteine treatment in behavioral and molecular alterations induced by chronic ethanol administration. Swiss mice were subject to thirteen days of daily ethanol administration to induce the development of behavioral sensitization. Two hours before each ethanol administration and locomotor activity assessment, animals received N-acetylcysteine injections i.p.. Right after the last test session, their brains were removed for ΔFosB and cystineglutamate antiporter quantification. We found that N-acetylcysteine treatment blocked ethanol-induced behavioral sensitization, the increase of ΔFosB content in the medial prefrontal cortex and its reduction in the nucleus accumbens. Our results suggest a possible use of N-acetylcysteine in the ethanol-related disorders. / A dependência ao etanol é um grave problema de saúde pública que ainda necessita de tratamentos farmacológicos mais efetivos. Um fator chave no desenvolvimento e manutenção dessa doença são as plasticidades neurais que ocorrem na via mesocorticolímbica mediante o abuso crônico de etanol. Estas plasticidades são, em geral, maladaptativas e afetam inúmeros sistemas de neurotransmissores e moléculas intracelulares. Uma dessas moléculas é a ΔFosB, um fator de transcrição que é alterado após o uso crônico de drogas de abuso. A sensibilização comportamental é um fenômeno decorrente da administração repetida de drogas muito útil no estudo das alterações neurais relacionadas à dependência. Trabalhos recentes tem demonstrado um papel do desequilíbrio da neurotransmissão glutamatérgica nos sintomas encontrados em indivíduos dependentes. Neste sentido, o tratamento com a N-acetilcisteína, um pró-fármaco da L-cisteína que atua restaurando as concentrações extrasinápticas do glutamato através da ativação do trocador cistina-glutamato, tem mostrado resultados promissores no tratamento da dependência de psicostimulantes. Assim, avaliamos os efeitos do tratamento com a N-acetilcisteína nas alterações comportamentais e moleculares induzidas pela administração crônica de etanol. Camundongos suíços machos foram submetidos a administrações diárias de etanol por 13 dias a fim de induzir o desenvolvimento da sensibilização comportamental. Duas horas antes de cada administração, os animais receberam uma administração intraperitoneal de Nacetilcisteína. Imediatamente após a última sessão de teste, os cérebros dos animais foram removidos para quantificação de ΔFosB e do trocador cistinaglutamato. Nós encontramos que o tratamento com a N-acetilcisteína bloqueou o desenvolvimento da sensibilização comportamental ao etanol, o aumento de ΔFosB no córtex pré-frontal medial e a sua redução no núcleo acumbens. Nossos resultados sugerem um possível uso da N-acetilcisteína nas desordens relacionadas ao uso de etanol. / FAPESP: 2015/01026-9 Dependência ao etanol N-acetilcisteína Glutamato Córtex préfrontal medial Núcleo acumbens Alcohol addiction N-acetylcysteine Glutamate xCT antiporter Medial prefrontal cortex Nucleus accumbens CIENCIAS BIOLOGICAS::FISIOLOGIA
107	Reversão dos efeitos reforçadores da morfina através do prejuízo da reconsolidação da memória do condicionamento de preferência por local e da sensibilização locomotora Boos, Flávia Zacouteguy January 2016 (has links) A dependência de drogas é um transtorno multifatorial complexo que se desenvolve em uma minoria de indivíduos que fazem uso dessas substâncias. Memórias associativas entre a droga e o contexto funcionam como gatilho para disparar comportamentos não adaptativos de busca e consumo, além de recaídas após períodos de abstinência. Subjacentes a essas mudanças comportamentais, existem modificações nas subunidades de receptores glutamatérgicos do tipo AMPA em estruturas envolvidas com memória (Hipocampo) e recompensa (Núcleo Accumbens). Por isso, estratégias que enfraqueçam a associação do contexto com a droga e que aprofundem o conhecimento dos circuitos envolvidos nesses comportamentos são de extrema relevância terapêutica. A memória quando evocada pode passar por dois processos pós-evocação: a extinção, em que uma nova memória é formada inibindo uma prévia associação, e a reconsolidação, em que a memória original entra em um estado lábil e suscetível a modificações, em que é possível enfraquecê-la através da inibição de sua reconsolidação. A reconsolidação da memória mostra-se uma estratégica mais eficaz e duradoura em relação à extinção, já que a memória original é modificada. Como modelo animal para o estudo da memória na dependência de drogas, o condicionamento de preferência por local (CPL) é bastante utilizado e sabe-se que é possível enfraquecer a preferência através do bloqueio da reconsolidação. Porém, são escassos os estudos que investigaram a existência da reconsolidação no modelo de sensibilização locomotora, que parece ocorrer, na maioria dos casos, em condição dependente do contexto de aquisição do comportamento, embora existam exemplos que demonstrem sua independência. As questões a serem respondidas neste trabalho são (a) se é possível reverter conjuntamente a preferência por local e a sensibilização locomotora à morfina (5 mg/kg) em ratos Wistar adultos machos, inibindo-se a síntese proteica com cicloheximida (CHX) i.p. logo após uma sessão de reativação contextual da memória no CPL, (b) se a reversão dos comportamentos reflete alterações (já descritas por outros autores) em GluA1, GluA1p (Ser845) e GluA2, no Hipocampo dorsal (HPCd) e no Núcleo Accumbens (NAc), e (c) se o mesmo tratamento em ambas estruturas reverte os dois parâmetros avaliados – comportamental e neuroquímico – de forma diferente ou igual. Nossos resultados mostraram ser possível reverter a preferência por local e a sensibilização locomotora por inibição sistêmica de síntese proteica, e que o condicionamento com exposição à morfina induz alterações nas subunidades analisadas de AMPA, conforme verificado no HPCd e NAc, embora a CHX não tenha produzido um efeito tão bem definido. Os animais que receberam infusões centrais no HPCd e NAc (central) não exibiram preferência por local, nem sensibilização. Em conjunto, nossos resultados mostraram, pela primeira vez em um mesmo desenho experimental, que é possível reverter diferentes aspectos da memória de recompensa (preferência e sensibilização) por meio do bloqueio da reconsolidação. / Drug addiction is a complex and multifactorial disorder that develops in a few people who use these substances. Associative memories between the drug and context of use act as a trigger for maladaptive behavior such as drug seeking and drug use, in addition to relapse after an extended period of withdrawal. Underlying these behavioral changes are modifications in glutamatergic reception (AMPA) in structures involved with memory (Hippocampus) and reward (Nucleus Accumbens). Therefore, strategies that weaken the drug and context association and deepen knowledge of circuits involved in these behaviors are extremely relevant therapeutically. When retrieved, a memory can undergo two distinct processes post-retrieval: extinction, in which a new memory inhibiting a previous association is generated, and reconsolidation, in which the original memory can enter a labile state and is susceptible to modifications, when it can be weakened by inhibition of its reconsolidation. Reconsolidation of memory has been shown to be a more effective and long lasting strategy in relation to extinction, since the original memory is modified. An animal model for studying drug addiction, conditioned place preference (CPP) is largely used and it is well known that it is possible to weaken preference by disrupting reconsolidation. However, there are few studies that investigate the existence of reconsolidation in a locomotor sensitization paradigm, which seems to occur in a condition dependent on context of acquisition, although some works report its independence. The questions answered in this work were (a) if it is possible to reverse both, context preference and locomotor sensitization to morphine (5mg/kg) by protein synthesis inhibition (CHX) after a contextual memory reactivation session in CPP, (b) if the disruption of behaviors reflects a reversal of changes of GluA1, GluA1p (Ser845) e GluA2 in dorsal Hippocampus (dHPC) and Nucleus Accumbens (NAc) and (c) if the same treatment in these structures differentially reverts the two parameters assessed. Our results indicate that it is possible to revert context preference and locomotor sensitization via systemic disruption of protein synthesis and that morphine conditioning induces changes in AMPA subunits in dHPC and NAc, although CHX did not have an evident effect on molecular reversal. Animals cannulated in dHPC and NAc core did not induce preference or sensitization. Taken together, our results demonstrated, for the first time, using the same experimental design that is possible to revert different aspects of reward memory (preference and sensitization) by disrupting the reconsolidation process. Memória Hipocampo Núcleo accumbens Locomoção Morfina Morphine Conditioned place preference Locomotor sensitization Memory Reconsolidation Dorsal hippocampus Nucleus accumbens Cicloheximide GluA1 GluA2
108	AMPc et prise alimentaire sous le contrôle des récepteurs 5-HT4 de la sérotonine dans le noyau accumbens / cAMP and food intake under control of the 5-HT4 serotonin receptors in the nucleus accumbens Pratlong, Maud 22 April 2014 (has links) L'anorexie mentale est une maladie mortelle liée à une privation volontaire d'aliments en dépit d'un besoin énergétique. La compréhension des causes biologiques des anomalies alimentaires requiert un niveau d'analyse simplifié. Ainsi l'utilisation de modèles animaux a permis d'identifier l'une des premières cibles thérapeutiques potentielles de l'anorexie : le récepteur 5-HT4 de la sérotonine (R5-HT4). La stimulation des R5-HT4 dans le noyau accumbens (NAc) active la voie de signalisation AMPc/PKA/CART et inhibe la faim, alors que l'inhibition de son activité constitutive par un agoniste inverse spécifique inhibe cette voie et provoque une hyperphagie. La transfection d'un R5-HT4 muté (R5-HT4ASSL), insensible à la sérotonine et dont l'activité constitutive est plus forte que celle du récepteur natif, dans le NAc chez la souris sauvage ou privée des R5-HT4, réduit la motivation à consommer des aliments, en activant la voie AMPc/PKA/CART de façon indépendante de la sérotonine. Ces résultats constituent un des rares cas connus d'implication de l'activité constitutive d'un récepteur couplé à une protéine G dans une fonction physiologique, la prise alimentaire. Dans ce contexte, nous décrivons un nouveau facteur de régulation du taux d'AMPc sous le contrôle des R5-HT4 dans le NAc : le complexe « A-kinase anchoring protein/Protein kinase A » (AKAP/PKA). La liaison de la PKA à l'AKAP inhibe l'augmentation du taux d'AMPc et d'ARNm codant le peptide CART, induite par la stimulation pharmacologique des R5-HT4, dans le NAc. Cet effet s'accompagne d'une diminution de la prise alimentaire. Ce rétrocontrôle négatif du complexe AKAP/PKA sur l'activité des R5-HT4 permet de diminuer le taux d'AMPc dans le NAc et de réguler la prise alimentaire. Ces résultats suggèrent qu'une trop forte activité constitutive des R5-HT4 induit une augmentation anormale d'AMPc dans le NAc qui peut conduire à des anomalies alimentaires comme l'anorexie mentale. Nous avons ainsi identifié un mécanisme moléculaire capable de réguler l'activité des R5-HT4 et qui pourrait servir de cible pour le traitement de l'anorexie. / Anorexia nervosa is a deadly mental disease related to a voluntary deprivation of food despite an energy requirement. Understanding of the biological causes of food anomalies requires a level of simplified analysis. And the use of animal models has previously allowed us to identify one of the first potential therapeutic targets of anorexia : serotonin 4 receptors (5-HT4Rs). Stimulation of 5-HT4Rs in the nucleus accumbens (Nac) activates the cAMP/PKA/CART signaling pathway and inhibits hunger, while the inhibition of its constitutive activity by a specific inverse agonist inhibits this pathway and causes hyperphagia. Transfection of a mutated 5-HT4R (5-HT4RASSL) insensitive to serotonin and whose constitutive activity is stronger that the native receptor, in the NAc in mice, reduces motivation for consuming food while activating the cAMP/PKA/CART pathway independently of serotonin. These results are one of the few known cases of involvement of the constitutive activity of G protein coupled receptor to a physiological function, the intake of food.In this context, we describe a new factor regulating cAMP levels under the control of 5-HT4Rs in the NAc: the A-kinase anchoring protein/Protein kinase A (AKAP/PKA) complex. The binding of PKA to AKAPs inhibits the increase in cAMP levels and mRNA encoding the peptide CART induced by pharmacological stimulation of 5-HT4Rs, in Nac. This effect is accompanied by a decrease in food intake The negative feedback of AKAP/PKA complex on the activity of 5-HT4Rs reduces the cAMP levels in the NAc and controls food intake.These results suggest that a too strong constitutive activity of 5-HT4Rs induces cAMP abnormal increase in the Nac and leads to eating abnormalities such as anorexia nervosa. We identified a molecular mechanism that regulates the activity of 5-HT4Rs and could serve as a target for the treatment of anorexia. Récepteurs 5-HT4 AMPc Activité constitutive Noyau accumbens Prise alimentaire Akap/pka Récepteurs 5-HT4 Camp Constitutive activity Nucleus accumbens Food intake Akap/pka
109	Implication de l'activité constitutive des récepteurs 5-HT4 dans la régulation de la conduite alimentaire : vers une solution thérapeutique. / Implication of the constitutive activity of 5-HT4 receptors in the regulation of food intake : toward a therapeutic treatment. Laurent, Laetitia 19 December 2011 (has links) La conduite alimentaire n'obéit pas nécessairement au besoin physiologique de consommer des aliments (la faim) ou à la satiété suggérant qu'un système nerveux volontaire de la restriction (anorexie) et de la consommation excessive d'aliments (boulimie, « binge-type eating ») inhibe le système nerveux autonome. Ces deux anomalies affectent plus fréquemment, et souvent à la fois, la femme que l'homme. Si l'utilisation de modèles animaux permet l'étude d'une part des bases neuronales en cause, ceux possiblement responsables de l'alternance « anorexie / boulimie » restent encore à identifier. Dans ce contexte, nous avons ainsi centré nos analyses sur l'étude de l'implication de récepteurs cérébraux couplés aux protéines G ; les récepteurs 4 de la sérotonine (R5-HT4) car leur stimulation dans le noyau accumbens (NAc), une structure du système de la récompense, inhibe la faim y compris après la mise à jeun de souris, par l'action AMPc/PKA dépendante d'un peptide de l'addiction ; « cocaine- and amphetamine-regulated transcript » (CART). Nous montrons que le maintien d'une plus forte expression (ectopique ou physiologique) des R5-HT4 dans le NAc a réduit plus durablement la faim que sa seule stimulation et augmente l'activité locomotrice. En incluant dans notre raisonnement l'activité constitutive des R5-HT4 (e.g. accumulation de la forme active R), nous montrons que l'injection d'un agoniste inverse (inhibition de l'activité constitutive : accumulation de la forme inactive, R) spécifique des R5-HT4 dans le NAc entraîne une baisse du taux d'AMPc et de CART tout en augmentant celui des ARNm codant le NPY d'autant plus que l'hyperphagie est élevée. Les effets induits par l'injection de l'agoniste inverse ne sont pas observés lorsqu'il est adjoint à un antagoniste des R5-HT4. Ces résultats suggèrent une implication physiologique de l'activité constitutive des R5-HT4 dans la régulation de la conduite alimentaire; son inhibition (agoniste inverse) dans le NAc augmente la prise et reprise alimentaire après un jeûne. L'ensemble de ces résultats rend probable que la plus forte activité des R5-HT4, à la base d'une association « anorexie /hyperactivité locomotrice », souvent décrite comme paradoxale au plan énergétique dans le syndrome de l'anorexie mentale, représente plutôt un mécanisme de compensation globale d'une valeur énergétique à perdre en conséquence d'une trop forte consommation d'aliments. Puisque la densité des R5-HT4 peut varier selon un taux variable de 5-HT après stress, lequel aggrave les anomalies alimentaires, nous avons étudié plus avant l'implication des R5-HT4 dans l'effet anorexigène du stress (immobilisation forcée) chez des souris femelles privées de leur gène : l'hypophagie induite par le stress n'a pas été observée chez les souris privées des R5-HT4 qui présentent une possible hyperactivité de l'axe hypothalamo-hypophysaire corticosurrénalien vraisemblablement compensée par un plus fort rétrocontrôle négatif. Il est donc probable que les R5-HT4 contribuent à réduire les conséquences du stress et que la modification de l'équilibre de leur activité contribue à une part de la symptomatologie de patients atteints d'anorexie / boulimie. / Feeding behavior does not necessarily obey to the physiological need to eat (hunger) or to satiety, suggesting that voluntary nervous system of the restriction (anorexia) and overeating (bulimia, binge-type eating) inhibits the autonomic nervous system. These two anomalies affecting more frequently, and often both, the woman than man. If animal models are used to study a part of neural bases involved, those possibly responsible for the oscillation of"anorexia / bulimia" remain to be identified. In this context, we thus focused our analysis on the study of the involvement of brain receptors coupled to G proteins ; serotonin 4 receptors (5-HTR4) because their stimulation in the nucleus accumbens (NAc), a brain reward area, inhibits hunger even after a food deprivation, by the action ofcAMP / PKA, dependent of an addiction peptide, "cocaine-and amphetamine-regulated transcript" (CART). Weshow that maintaining a higher expression (ectopic or physiological) of 5-HTR4 in the NAc, reduced hunger more longer than the acute stimulation and increased locomotor activity. Including in our reasoning the constitutive activity of 5-HTR4 (e.i. accumulation of the active form R), we show that injecting a specific inverse agonist of the5-HTR4 (inhibition of constitutive activity: accumulation of inactive form, R ) in the NAc induced a decrease incAMP and CART levels, while increasing NPY mRNA level, especially when binge is high. The effects induced by the injection of the inverse agonist are not observed when a 5-HTR4 antagonist was coadministrated. These results suggest a physiological involvement of the constitutive activity of 5-HTR4 in the regulation of feeding behavior ; its inhibition (inverse agonist) in the NAc increases the food intake in fed or food-deprived mice. All of these results makes it likely that the highest activity of 5-HTR4, at the base of the association "anorexia /locomotor hyperactivity", often described as paradoxical in terms of energy, in the syndrome of anorexia nervosa,represent rather a global compensation mechanism of energy to be lost as a result of an excessive consumption of food. Since the density of the 5-HTR4 may vary depending on a variable rate of 5-HT following stress, which aggravates the feeding disorders, we further investigated the involvement of 5-HTR4 in the appetite-suppressant effect of stress (forced immobilization) in female mice deprived of their gene: stress-induced hypophagia was not observed in mice deprived of 5-HTR4 who present a possible hyperactivity of the hypothalamic-pituitary adrenocortical axis likely offset by a stronger negative feedback. It is therefore likely that the 5-HTR4 contribute to reduce the effects of stress and that the modification of the balance of their activities contribute to a part of the symptoms of patients with anorexia / bulimia. Récepteurs 5-HT4 Prise alimentaire Activité constitutive Noyau accumbens Anorexie Boulimie Receptors 5-HT4 Feeding disorders Constitutive activity Nucleus accumbens Anorexia Bulimia
110	Integrated Analysis of miRNA/mRNA Expression in the Neurocircuitry Underlying Nicotine Dependence Casserly, Alison P. 16 August 2018 (has links) Nicotine dependence is responsible for perpetuating the adverse health effects due to tobacco use, the leading cause of preventable death worldwide. Nicotine is an agonist for nicotinic acetylcholine receptors, which are enriched in the mesocorticolimbic and habenulo-interpeduncular circuitries, underlying nicotine reward and withdrawal, respectively. Drugs of abuse, including nicotine, induce stable neuroadaptations, requiring protein synthesis through regulation of transcription factors, epigenetic mechanisms, and non-coding RNAs. It also been shown that miRNAs in brain are regulated by nicotine and that miRNA dysregulation contributes to brain dysfunction, including drug addiction. While much is known about the neurocircuitry responsible for the behaviors associated with nicotine reward or withdrawal, the underlying molecular mechanisms of how these changes in behavior are induced are less clear. Using miRNA-/mRNA-Seq, we demonstrate that there are widespread changes in both miRNA and mRNA expression in brain regions comprising the mesocorticolimbic circuit after chronic nicotine treatment, and the habenulo-interpeduncular circuit during acute nicotine withdrawal. Conserved, differentially expressed miRNAs were predicted to target inversely regulated mRNAs. We determined that expression of miR-106b-5p is up-regulated and Profilin 2 (Pfn2), an actin-binding protein enriched in the brain, is down-regulated in the interpeduncular nucleus (IPN) during acute nicotine withdrawal. Further we show that miR-106b-5p represses Pfn2 expression. We demonstrate that knockdown of Pfn2 in the IPN is sufficient to induce anxiety, a symptom of withdrawal. This novel role of Pfn2 in nicotine withdrawal-associated anxiety is a prime example of this dataset’s utility, allowing for the identification of a multitude of miRNAs/mRNA which may participate in the molecular mechanisms underlying the neuroadaptations of nicotine dependence. Nicotine Withdrawal Addiction Anxiety mRNA miRNA sequencing Profilin pfn2 ventral tegmental area nucleus accumbens interpeduncular nucleus medial habenula Behavioral Neurobiology Bioinformatics Molecular and Cellular Neuroscience

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