Avaliação do envolvimento de receptores específicos para o fator liberador de corticotropina CRF1 e CRF2 dos núcleos basolateral e central da amígdala no comportamento de imobilidade tônica em cobaias (Cavia porcellus) / Evaluation of the role of specific receptors for corticotropin-releasing factor CRF1 and CRF2 from the basolateral and central nucleus of amygdala in tonic immobility behavior in guinea pigs (Cavia porcellus).

Spinieli, Richard Leandro

29 April 2014

A resposta comportamental de Imobilidade Tônica (IT) ocorre em situações de perigo intenso, e em situações inescapáveis, como por exemplo,o ataque de um predador. Esta resposta caracteriza-se por perda do reflexo de endireitamento e relativa falta de responsividade aos estímulos ambientais. Estudos consistentes tem demonstrado o envolvimento de distintas áreas encefálicas na modulação desta resposta, entre elas a substância cinzenta periaquedutal, o hipotálamo e a amígdala. Considerando a amígdala em particular, estudos mostraram o envolvimento dos receptores para o fator liberador de corticotropina (CRF) dos núcleos basolateral (BLA) e central (CeA) na modulação da resposta de IT em cobaias. De fato, nas últimas décadas, várias evidências sugerem que o CRF está intimamente correlacionado com comportamento emocional associado ao medo e à ansiedade. Embora seja claro o envolvimento de receptores CRF na modulação do medo, e especificamente na modulação da IT em cobaias, ainda não está esclarecido o envolvimento dos diferentes subtipos de receptores para CRF na modulação emocional. Desta forma, o objetivo deste trabalho foi investigar o envolvimento dos receptores específicos para o fator liberador de corticotropina, CRF1 e CRF2 dos núcleos basolateral (BLA) e central da amígdala (CeA) na modulação da resposta de IT em cobaias.Para atingir estes objetivos, grupos independentes de cobaias, com implante de cânulas-guias dirigidas para o BLA ou para o CeA foram avaliadas no teste de imobilidade tônica, antes e depois da administração dos antagonistas específicos para receptores CRF1 (CP-376395) ou para receptores CRF2 (Astressin 2B), ou depois da administração de CRF precedido ou não dos antagonistas CRF1 ou CRF2. Em adição, para avaliar se as drogas utilizadas alteraram a atividade locomotora, foi realizado o teste do campo aberto, por 5 minutos, após a administração dos antagonistas para receptores CRF1 (CP-376395) e CRF2 (Astressin 2B), em doses capazes de alterar a resposta de IT em cobaias, e de CRF precedido por antagonista CRF1 ou CRF2. Os resultados deste trabalho mostram que o bloqueio dos receptores CRF1 e CRF2 no BLA e no CeA reduziram a duração da resposta defensiva de imobilidade tônica (IT) em cobaias. Inversamente, a ativação destes receptores no BLA e no CeA aumentou o tempo de IT, demonstrado pela administração de CRF nestas regiões amigdalóides. Ainda, os antagonistas específicos para receptores CRF1 e CRF2 foram capazes de bloquear o aumento da duração da IT induzida pelo CRF administrado no mesmo sítio. Estes resultados sugerem que o efeito promovido pelo CRF no BLA e no CeA ocorre por atuação conjunta em receptores CRF1 e CRF2. Em adição, é importante ressaltar que as drogas, nas doses utilizadas neste estudo, não promoveram alteração da resposta motora, desde que não alteraram a atividade no teste do campo aberto, o que por si só, poderia alterar a resposta de IT. Assim, é possível que sugerir que o bloqueio específico de receptores CRF1 e CRF2 do BLA e do CeA promovem redução do medo e/ou da ansiedade, resultando em redução da resposta de IT em cobaias. / The tonic immobility response (TI ) occurs in inescapable situations of intense danger, such as the predator attack. This response is characterized by loss of righting reflex and the relative lack of responsiveness to environmental stimuli. Consistent studies have demonstrated the involvement of different brain areas to modulate this defensive behavior, including the periaqueductal gray matter, hypothalamus and amygdala. Whereas the amygdala in particular, studies have shown the involvement of receptors for corticotropin-releasing factor (CRF) of the central (CeA) and basolateral (BLA) nuclei os amygdala in TI modulating in guinea pigs. Indeed, in recent decades, several evidences suggest that CRF is closely correlated with emotional behavior associated with fear and anxiety. While it is clear the involvement of CRF receptors in the modulation of fear, and specifically in the modulation of TI, it is still unclear the involvement of different subtypes of CRF receptors in the emotional modulation. Thus, the aim of this study was to investigate the involvement of specific receptors for corticotropin-releasing factor, CRF1 and CRF2of BLA and of CeA in modulating the TI response in guinea pigs. To achieve these objectives, independent groups of guinea pigs were implanted with guide cannulae aimed for BLA or CeA were evaluated in the test of tonic immobility before and after the administration of specific antagonists of CRF1 receptors (CP- 376395) or CRF2 receptors (Astressin 2B), or after the administration of CRF preceded by CRF1or CRF2 antagonists, or CRF per se. In addition, to assess whether the drugs used altered locomotor activity, the open field test, for 5 minutes was performed after administration of antagonists for CRF1 receptors (CP- 376395) and CRF2 (Astressin 2B), at doses that alter the TI response in guinea pigs, and the CRF agonist preceded by CRF1 or CRF2. These results show that blockade of CRF1 and CRF2 receptors in the BLA and CeA reduced the duration of the defensive response of tonic immobility (TI) in guinea pigs. In contrast, activation of these receptors in the BLA and CeA increased the TI duration, demonstrated by administration of CRF in these amygdaloid regions. Also, specific antagonists for CRF1 and CRF2 receptors were able to block the increase in the TI response induced by CRF administered in the same structure. These results suggest that the effect promoted by CRF in the BLA and CeA is by joint performance of CRF1 and CRF2 receptors. Additionally, it is important to note that the drugs, in the doses used in this study, did not promote change in the motor response, since it did not alter the activity in the open field test, which by itself could alter the TI response. Thus, it is possible to suggest that the specific blockade of CRF1 and CRF2 receptors in the BLA and CeA promote reduction of fear and/or anxiety, resulting in reduced TI response in guinea pigs.

Basolateral nucleus of amygdala

Central nucleus of amygdala

Comportamento Defensivo

CRF

CRF

CRF1

CRF1

CRF2.

CRF2.

Defensive behavior

Imobilidade Tônica

Innate fear: Tonic Immobility

Medo Inato

Núcleo Basolateral da Amígdala

Núcleo Central da Amígdala

Avaliação do envolvimento de receptores específicos para o fator liberador de corticotropina CRF1 e CRF2 dos núcleos basolateral e central da amígdala no comportamento de imobilidade tônica em cobaias (Cavia porcellus) / Evaluation of the role of specific receptors for corticotropin-releasing factor CRF1 and CRF2 from the basolateral and central nucleus of amygdala in tonic immobility behavior in guinea pigs (Cavia porcellus).

Richard Leandro Spinieli

29 April 2014

A resposta comportamental de Imobilidade Tônica (IT) ocorre em situações de perigo intenso, e em situações inescapáveis, como por exemplo,o ataque de um predador. Esta resposta caracteriza-se por perda do reflexo de endireitamento e relativa falta de responsividade aos estímulos ambientais. Estudos consistentes tem demonstrado o envolvimento de distintas áreas encefálicas na modulação desta resposta, entre elas a substância cinzenta periaquedutal, o hipotálamo e a amígdala. Considerando a amígdala em particular, estudos mostraram o envolvimento dos receptores para o fator liberador de corticotropina (CRF) dos núcleos basolateral (BLA) e central (CeA) na modulação da resposta de IT em cobaias. De fato, nas últimas décadas, várias evidências sugerem que o CRF está intimamente correlacionado com comportamento emocional associado ao medo e à ansiedade. Embora seja claro o envolvimento de receptores CRF na modulação do medo, e especificamente na modulação da IT em cobaias, ainda não está esclarecido o envolvimento dos diferentes subtipos de receptores para CRF na modulação emocional. Desta forma, o objetivo deste trabalho foi investigar o envolvimento dos receptores específicos para o fator liberador de corticotropina, CRF1 e CRF2 dos núcleos basolateral (BLA) e central da amígdala (CeA) na modulação da resposta de IT em cobaias.Para atingir estes objetivos, grupos independentes de cobaias, com implante de cânulas-guias dirigidas para o BLA ou para o CeA foram avaliadas no teste de imobilidade tônica, antes e depois da administração dos antagonistas específicos para receptores CRF1 (CP-376395) ou para receptores CRF2 (Astressin 2B), ou depois da administração de CRF precedido ou não dos antagonistas CRF1 ou CRF2. Em adição, para avaliar se as drogas utilizadas alteraram a atividade locomotora, foi realizado o teste do campo aberto, por 5 minutos, após a administração dos antagonistas para receptores CRF1 (CP-376395) e CRF2 (Astressin 2B), em doses capazes de alterar a resposta de IT em cobaias, e de CRF precedido por antagonista CRF1 ou CRF2. Os resultados deste trabalho mostram que o bloqueio dos receptores CRF1 e CRF2 no BLA e no CeA reduziram a duração da resposta defensiva de imobilidade tônica (IT) em cobaias. Inversamente, a ativação destes receptores no BLA e no CeA aumentou o tempo de IT, demonstrado pela administração de CRF nestas regiões amigdalóides. Ainda, os antagonistas específicos para receptores CRF1 e CRF2 foram capazes de bloquear o aumento da duração da IT induzida pelo CRF administrado no mesmo sítio. Estes resultados sugerem que o efeito promovido pelo CRF no BLA e no CeA ocorre por atuação conjunta em receptores CRF1 e CRF2. Em adição, é importante ressaltar que as drogas, nas doses utilizadas neste estudo, não promoveram alteração da resposta motora, desde que não alteraram a atividade no teste do campo aberto, o que por si só, poderia alterar a resposta de IT. Assim, é possível que sugerir que o bloqueio específico de receptores CRF1 e CRF2 do BLA e do CeA promovem redução do medo e/ou da ansiedade, resultando em redução da resposta de IT em cobaias. / The tonic immobility response (TI ) occurs in inescapable situations of intense danger, such as the predator attack. This response is characterized by loss of righting reflex and the relative lack of responsiveness to environmental stimuli. Consistent studies have demonstrated the involvement of different brain areas to modulate this defensive behavior, including the periaqueductal gray matter, hypothalamus and amygdala. Whereas the amygdala in particular, studies have shown the involvement of receptors for corticotropin-releasing factor (CRF) of the central (CeA) and basolateral (BLA) nuclei os amygdala in TI modulating in guinea pigs. Indeed, in recent decades, several evidences suggest that CRF is closely correlated with emotional behavior associated with fear and anxiety. While it is clear the involvement of CRF receptors in the modulation of fear, and specifically in the modulation of TI, it is still unclear the involvement of different subtypes of CRF receptors in the emotional modulation. Thus, the aim of this study was to investigate the involvement of specific receptors for corticotropin-releasing factor, CRF1 and CRF2of BLA and of CeA in modulating the TI response in guinea pigs. To achieve these objectives, independent groups of guinea pigs were implanted with guide cannulae aimed for BLA or CeA were evaluated in the test of tonic immobility before and after the administration of specific antagonists of CRF1 receptors (CP- 376395) or CRF2 receptors (Astressin 2B), or after the administration of CRF preceded by CRF1or CRF2 antagonists, or CRF per se. In addition, to assess whether the drugs used altered locomotor activity, the open field test, for 5 minutes was performed after administration of antagonists for CRF1 receptors (CP- 376395) and CRF2 (Astressin 2B), at doses that alter the TI response in guinea pigs, and the CRF agonist preceded by CRF1 or CRF2. These results show that blockade of CRF1 and CRF2 receptors in the BLA and CeA reduced the duration of the defensive response of tonic immobility (TI) in guinea pigs. In contrast, activation of these receptors in the BLA and CeA increased the TI duration, demonstrated by administration of CRF in these amygdaloid regions. Also, specific antagonists for CRF1 and CRF2 receptors were able to block the increase in the TI response induced by CRF administered in the same structure. These results suggest that the effect promoted by CRF in the BLA and CeA is by joint performance of CRF1 and CRF2 receptors. Additionally, it is important to note that the drugs, in the doses used in this study, did not promote change in the motor response, since it did not alter the activity in the open field test, which by itself could alter the TI response. Thus, it is possible to suggest that the specific blockade of CRF1 and CRF2 receptors in the BLA and CeA promote reduction of fear and/or anxiety, resulting in reduced TI response in guinea pigs.

Comportamento Defensivo

CRF

CRF1

CRF2.

Imobilidade Tônica

Medo Inato

Núcleo Basolateral da Amígdala

Núcleo Central da Amígdala

Basolateral nucleus of amygdala

Central nucleus of amygdala

CRF

CRF1

CRF2.

Defensive behavior

Innate fear: Tonic Immobility

Dépendance aux drogues opiacées : focus sur le système corticotropin-releasing factor / Opiate dependence : focus on the corticotropin-releasing factor system

Rouibi, Khalil Adnane

21 December 2011

La prise illicite de drogues opiacées est un problème majeur de santé publique dans le monde. L’apparition du syndrome de sevrage aux opiacés (SAO) suite à l’arrêt de prise d’opiacés est considérée comme élément clef dans la vulnérabilité associée à la rechute de prise d’opiacés. En effet le syndrome de SAO est caractérisé par des altérations comportementales et neurobiologiques en réponse au stress qui sont déterminantes dans le phénomène de dépendance aux opiacés. Le système corticotropin-releasing factor (CRF) est un coordinateur central des circuits de réponse au stress par l’intermédiaire de ses deux récepteurs le: CRF1 et CRF2. L’objectif de cette thèse est de déterminer le rôle du récepteur CRF2 dans l’apparition des états affectifs négatifs et des désordres motivationnels impliqués dans la rechute de la consommation de drogues opioïdes lors du SAO.Nous avons démontré par une série d’expériences conduite chez des souris invalidées au récepteur CRF2 (CRF2-/-), que la délétion génétique du récepteur CRF2-/- éliminait les états dysphoriques ainsi que les altérations moléculaires induites par le SAO sans détériorer les réponses neuroendocriniennes qui sont primordiales lors des adaptations aux stress associées au sevrage. De surcroît, nous avons trouvé que les souris CRF2-/- entrainées dans une procédure de tâche opérante dirigée vers l’obtention d’une nourriture palatable, montraient une diminution des troubles motivationnels induits par le SAO. Plusieurs rapports montrent que chez l’Homme, les évènements stressants apparaissant lors d’une période de sevrage provoquent une rechute de la consommation d’alcool ou de drogues. Nous avons développé un modèle murin qui montrait un rétablissement de recherche de nourriture palatable suite à une procédure de stress appliquée pendant une période de SAO. Par ailleurs, nous avons observé un dimorphisme sexuel du rôle du récepteur CRF2 dans le rétablissement de recherche de nourriture palatable, suite au stress, longtemps après un SAO.Les résultats de ce travail de thèse nous permettent de mettre en avant le récepteur CRF2 comme possible cible thérapeutique dans le traitement de la dépendance aux opiacés. / Opiate illicit use represents one of the most severe sanitary problems throughout the world. Among humans, the emergence of the opiate withdrawal (OW) syndrome after cessation of opiate intake is considered as one of the key motivational elements that lead to the vulnerability to opiates relapse. Therefore, the OW is characterized by a various alterations of the behavioral and neurobiological homeostasis responses to stress which are determinants in opiate dependence. The Corticotropin-releasing factor (CRF) system is the major coordinator of stress-responsive circuitry. Through its two receptors CRF1 and CRF2, the CRF system has recently emerged as major contributor in the development of components of the OW syndrome. The aim of this thesis is to determine the role of CRF2 receptor in the negative affective states and motivational disorders implicated in opiate relapse during OW.Behavioral and biological experiments were conducted in CRF2 receptor-deficient mice (CRF2-/-). We reported that genetic deletion of the CRF2 receptor eliminates dysphoria and molecular alterations elicited by OW without impairing brain, neuroendocrine and autonomic stress-coping responses to withdrawal. Using behavioral approaches of operant responding to highly palatable food (HPF) we found that CRF2-/- reduces motivational disorders induced by intermittent morphine injections and withdrawal. Finally, we described a mouse model of stress-induced food reinstatement seeking behavior during prolonged OW. Furthermore, we reported a gender dimorphism in the role of the CRF2 receptor in the stress-induced reinstatement of HPF seeking behavior long-lasing after opiate treatment.These findings underscore the importance of CRF2 receptor as possible effective treatment of the critical problem of opiate dependence.

Dépendance aux opiacés

Corticotropin releasing factor system

Voie du recepteur CRF2

Sevrage

Affect négatif

Anhédonie

Motivation

Rechute

Stress

Souris

Opiate dependence

Corticotropin releasing factor system

CRF2 receptor pathway

Withdrawal

Negative affect

Anhedonia

Motivation

Relapse

Stress

Mice

La délétion génétique du récepteur corticotropin-releasing factor de type 2 réduit les déficits mnésiques et sociaux induits par la cocaïne / Corticotropin-releasing factor 2 receptor-deficiency reduces memory and social deficits induced by cocaine

Morisot, Nadège

16 December 2013

Les travaux de cette thèse visent à étudier le role du système corticotropin-releasing factor (CRF) dans les dysfonctions cognitives, les altérations du comportement social et la vulnérabilité au stress associées à l’addiction aux drogues. Les effets de la délétion génétique du récepteur CRF1 ou CRF2 sont examinés dans les tests de reconnaissance d’objet et de préférence sociale après une exposition chronique et pendant le sevrage à la cocaine. Le rôle du récepteur CRF2 dans la vulnérabilité au stress qui pourrait précipiter l’apparition de déficits cognitifs et sociaux pendant le sevrage prolongé à la cocaine est également étudié. / Stimulant-related disorders are characterized by emotional-like, cognitive and social dysfunction that may contribute to the maintenance of the disease. In addition, stimulant use and withdrawal may alter brain stress systems. The corticotropin-releasing factor (CRF) system is a major stress coordinator hypothesized to contribute to substance-related disorders. CRF signalling is mediated by two receptor types, named CRF1 and CRF2. The specific role of each of the CRF receptors in negative affective-like, cognitive and social dysfunction associated with stimulant administration and withdrawal remains largely unknown. The present study demonstrates that the CRF1 receptor-deficiency increases the anxiety-like behaviour induced by intermittent administration of escalating doses of cocaine (5-20 mg/kg, i.p.), as assessed by the elevated plus maze. In addition, the same cocaine regimen induces novel object recognition (NOR) and sociability deficits, which are unaffected by CRF2 receptor-deficiency. However, CRF2 receptor-deficiency effectively shortens the duration of the NOR and sociability deficit induced by cocaine withdrawal. Furthermore, following the apparent recovery of NOR and sociability performances during relative long-term (42 days) cocaine withdrawal, CRF2 receptor-deficiency eliminates the stress-induced re-emergence of NOR and sociability deficit. Stressed cocaine-withdrawn mice show a genotype-independent higher c-fos mRNA expression in the perirhinal cortex, a brain region mediating NOR performance, than stressed drug-naïve mice. However, neither genotype nor drug withdrawal affects the expression of tyrosine hydroxylase in the ventral tegmentale area and the locus coeruleus, CRF in the amygdala and the paraventricular nucleus of the hypothalamus and dynorphin in the nucleus accumbens shell. The latter results suggest that stress vulnerability during long-term cocaine withdrawal is not due to alterations in stress-coping mechanisms. The present study provides initial evidence of a critical role for the CRF system in cognitive and sociability deficits and vulnerability induced by stimulant administration and withdrawal, suggesting new therapeutic strategies for substance-related disorders.

Récepteurs CRF1

Récepteurs CRF2

Cocaïne

Mémoire

Emotion

Sociabilité

Vulnérabilité

Stress

Génétique délétion

Souris

CRF1 receptors

CRF2 receptor

Cocaine

Memory

Emotion

Sociability

Vulnerability

Stress

Genetic deletion

Mouse

Mice