The Posterior Bed Nucleus of the Stria Terminalis Mediates Opposite-Sex Odor Preference in Male Syrian Hamsters (Mesocricetus Auratus)

Been, Laura Elizabeth

11 November 2008

In Syrian hamsters, social behavior is mediated exclusively by chemosensory cues and circulating gonadal steroid hormones. Where these two signals are processed in the brain is unknown, but the posterior bed nucleus of the stria terminalis (pBNST) has been suggested as a candidate site. Therefore, we tested male hamsters’ preference for opposite-sex odors following excitotoxic lesions of the pBNST. Lesions of the pBNST (pBNST-X) eliminated male hamsters’ preference for opposite-sex odors. Furthermore, pBNST-X males spent significantly less time investigating female odors than clean odors and significantly less time investigating female odors than control males did. Lesions of the pBNST did not change male hamsters’ investigation of male odors. The deficits observed in pBNST-X males were not due to a failure to discriminate between odors, as pBNST-X males were able to distinguish between odors. Together, these data suggest the pBNST is critical for opposite-sex odor preference in male hamsters.

Odor

Hamster

Social behavior

Excitotoxic lesion

Hormones

Odor preference

Reproduction

Extended amygdala

Bed nucleus of the stria terminalis

Psychology

Envolvimento do núcleo leito da estria terminal nos efeitos ansiolíticos do canabidiol / Involvement of the bed nucleus of the stria terminalis in the anxiolytic effects of cannabidiol

Gomes, Felipe Villela

26 January 2011

O canabidiol (CBD), um componente não-psicotomomético presente na planta Cannabis sativa, induz efeitos ansiolíticos em roedores e humanos após administração sistêmica. Entretanto, poucos estudos foram feitos para identificar as estruturas cerebrais envolvidas nesses efeitos do CBD. Dados prévios do nosso laboratório apontam para um possível envolvimento do núcleo leito da estria terminal (NLET) nos efeitos ansiolíticos do CBD, como evidenciado pelos níveis alterados (reduzidos) de imunorreatividade para proteína c-Fos (marcador de ativação neuronial) em animais tratados com administração sistêmica de CBD no modelo da resposta emocional condicionada (REC) contextual. Os mecanismos de ação pelos quais o CBD produz seus também são ainda pouco compreendidos, mas pode envolver a ativação de receptores 5-HT1A. Assim, o presente trabalho investigou se a administração de CBD diretamente no NLET atenuaria a expressão da REC contextual. Além disso, nós também avaliamos o envolvimento do NLET nos efeitos ansiolíticos do CBD em outros dois modelos animais de ansiedade amplamente utilizados, o labirinto em cruz elevado e o teste do lamber punido de Vogel e, se os efeitos ansiolíticos do CBD envolveriam a ativação local de receptores 5-HT1A. Os resultados mostraram que o CBD reduziu significativamente o tempo de congelamento e atenuou as respostas cardiovasculares induzidas pela re-exposição ao contexto aversivo no modelo da REC contextual. Além disso, o CBD também aumentou a exploração dos braços abertos do LCE, bem como o número de lambidas punidas no teste de Vogel, sugerindo um efeito ansiolítico. Adicionalmente, o CBD não alterou o número de entradas nos braços fechados do LCE e não interferiu no consumo de água ou no limiar nociceptivo, descartando potenciais interferentes nesses dois modelos. Nós também observamos que o pré-tratamento local com WAY100635, um antagonista de receptores 5-HT1A, foi capaz de bloquear os efeitos do CBD injetado no NLET nos três modelos animais utilizados. Logo, estes resultados dão suporte à proposta que NLET está envolvido nos efeitos ansiolíticos do CBD observado após a administração sistêmica, e que este efeito parece envolver a neurotransmissão mediada por receptores 5-HT1A. / Cannabidiol (CBD), a major non-psychotomimetic compound from Cannabis sativa, induces anxiolytic effects in rodents and humans following systemic administration. Despite the brain structures of CBD acts remain poorly understood, previous results from our laboratory suggest that the bed nucleus of the stria terminalis (BNST) may be involved in the anxiolytic effects of CBD, as evidenced by changed levels (decreased) in c-Fos protein expression (a marker of neuronal activation) in animals treated with systemic administration of CBD in the contextual fear conditioning. The mechanisms of CBD effects are still poorly understood but may involve activation of 5-HT1A receptors. Thus, in the present study, we have investigated the anxiolytic-like effects of intra-BNST administration of CBD in rats submitted to contextual fear conditioning. Moreover, we also evaluated the involvement of the BNST in the anxiolytic effects of CBD in other two widely used animal models of anxiety, the elevated plus-maze and the Vogel conflict test, and if these effects are mediated by local activation of 5-HT1A receptors. The results showed that CBD significantly decreased the freezing time and attenuated the cardiovascular responses induced by contextual fear conditioning. Moreover, CBD has also increased the exploration of open arms in EPM, and the number of punished licks in the Vogel test, suggesting an anxiolytic effect. Additionally, the CBD did not alter the number of entries in closed arms of the EPM and did not affect water consumption or pain threshold, eliminating potential interferences of these two models. We also found that local pretreatment with WAY100635, a 5-HT1A receptor antagonist, was able to block the effects of CBD injected into the BNST in the three animal models of anxiety used. Hence, these results support the proposal that BNST is involved in anxiolytic effects of CBD observed after systemic administration, and this effect seems to involve the neurotransmission mediated by 5-HT1A receptors.

5-HT1A receptor

Animal models

Ansiedade

Anxiety

Bed nucleus of the stria terminalis

Canabidiol

Cannabidiol

Modelos animais

Núcleo leito da estria terminal

Receptor 5-HT1A

Envolvimento do núcleo leito da estria terminal nos efeitos ansiolíticos do canabidiol / Involvement of the bed nucleus of the stria terminalis in the anxiolytic effects of cannabidiol

Felipe Villela Gomes

26 January 2011

O canabidiol (CBD), um componente não-psicotomomético presente na planta Cannabis sativa, induz efeitos ansiolíticos em roedores e humanos após administração sistêmica. Entretanto, poucos estudos foram feitos para identificar as estruturas cerebrais envolvidas nesses efeitos do CBD. Dados prévios do nosso laboratório apontam para um possível envolvimento do núcleo leito da estria terminal (NLET) nos efeitos ansiolíticos do CBD, como evidenciado pelos níveis alterados (reduzidos) de imunorreatividade para proteína c-Fos (marcador de ativação neuronial) em animais tratados com administração sistêmica de CBD no modelo da resposta emocional condicionada (REC) contextual. Os mecanismos de ação pelos quais o CBD produz seus também são ainda pouco compreendidos, mas pode envolver a ativação de receptores 5-HT1A. Assim, o presente trabalho investigou se a administração de CBD diretamente no NLET atenuaria a expressão da REC contextual. Além disso, nós também avaliamos o envolvimento do NLET nos efeitos ansiolíticos do CBD em outros dois modelos animais de ansiedade amplamente utilizados, o labirinto em cruz elevado e o teste do lamber punido de Vogel e, se os efeitos ansiolíticos do CBD envolveriam a ativação local de receptores 5-HT1A. Os resultados mostraram que o CBD reduziu significativamente o tempo de congelamento e atenuou as respostas cardiovasculares induzidas pela re-exposição ao contexto aversivo no modelo da REC contextual. Além disso, o CBD também aumentou a exploração dos braços abertos do LCE, bem como o número de lambidas punidas no teste de Vogel, sugerindo um efeito ansiolítico. Adicionalmente, o CBD não alterou o número de entradas nos braços fechados do LCE e não interferiu no consumo de água ou no limiar nociceptivo, descartando potenciais interferentes nesses dois modelos. Nós também observamos que o pré-tratamento local com WAY100635, um antagonista de receptores 5-HT1A, foi capaz de bloquear os efeitos do CBD injetado no NLET nos três modelos animais utilizados. Logo, estes resultados dão suporte à proposta que NLET está envolvido nos efeitos ansiolíticos do CBD observado após a administração sistêmica, e que este efeito parece envolver a neurotransmissão mediada por receptores 5-HT1A. / Cannabidiol (CBD), a major non-psychotomimetic compound from Cannabis sativa, induces anxiolytic effects in rodents and humans following systemic administration. Despite the brain structures of CBD acts remain poorly understood, previous results from our laboratory suggest that the bed nucleus of the stria terminalis (BNST) may be involved in the anxiolytic effects of CBD, as evidenced by changed levels (decreased) in c-Fos protein expression (a marker of neuronal activation) in animals treated with systemic administration of CBD in the contextual fear conditioning. The mechanisms of CBD effects are still poorly understood but may involve activation of 5-HT1A receptors. Thus, in the present study, we have investigated the anxiolytic-like effects of intra-BNST administration of CBD in rats submitted to contextual fear conditioning. Moreover, we also evaluated the involvement of the BNST in the anxiolytic effects of CBD in other two widely used animal models of anxiety, the elevated plus-maze and the Vogel conflict test, and if these effects are mediated by local activation of 5-HT1A receptors. The results showed that CBD significantly decreased the freezing time and attenuated the cardiovascular responses induced by contextual fear conditioning. Moreover, CBD has also increased the exploration of open arms in EPM, and the number of punished licks in the Vogel test, suggesting an anxiolytic effect. Additionally, the CBD did not alter the number of entries in closed arms of the EPM and did not affect water consumption or pain threshold, eliminating potential interferences of these two models. We also found that local pretreatment with WAY100635, a 5-HT1A receptor antagonist, was able to block the effects of CBD injected into the BNST in the three animal models of anxiety used. Hence, these results support the proposal that BNST is involved in anxiolytic effects of CBD observed after systemic administration, and this effect seems to involve the neurotransmission mediated by 5-HT1A receptors.

Ansiedade

Canabidiol

Modelos animais

Núcleo leito da estria terminal

Receptor 5-HT1A

5-HT1A receptor

Animal models

Anxiety

Bed nucleus of the stria terminalis

Cannabidiol

Régulation différentielle de la neurogenèse le long de l'axe septo-temporal de l'hippocampe : implications pour la contribution fonctionnelle des nouveaux neurones dans pathophysiologie de la dépression / Differential regulation of neurogenesis along the septo-temporal axis of the hippocampus : implications for the functional contribution of newborn neurons to the pathophysiology of depression

Tanti, Arnaud

14 December 2012

Les nouveaux neurones de l’hippocampe semblent contribuer à l’action thérapeutique des antidépresseurs. La nature fonctionnelle de cette contribution est cependant inconnue. En stimulant la neurogenèse les antidépresseurs pourraient renforcer certaines fonctions de l’hippocampe et ainsi permettre la rémission. Nous montrons dans ce travail que les nouveaux neurones peuvent contribuer à l’action thérapeutique des antidépresseurs en participant au renforcement de rétrocontrôle hippocampique sur la régulation de l’axe HPA, potentiellement via leur rôle dans la capacité de l’hippocampe à moduler l’activité des autres structures impliquées dans la régulation du stress, comme le noyau du lit de la strie terminale. Les différentes composantes fonctionnelles de l’hippocampe sont cependant topographiquement distribuées le long de son axe septo-temporal. A travers une approche corrélative nous avons montré que différents antidépresseurs régulent la neurogenèse différentiellement le long de l’axe septo-temporal. Cela suggère des mécanismes de régulation régiondépendants et que la contribution des nouveaux neurones dans les effets des antidépresseurs pourrait être multiple et sous tendue par des composantes fonctionnelles différentes, et non limitée à la régulation de l’axe du stress. / Hippocampal newborn neurons contribute to some extent to the therapeutic effects of antidepressants. Mechanisms involved in this contribution remain however elusive. By increasing the recruitment of newborn neurons antidepressants could improve several hippocampal functions and thus allow remission. Here we demonstrate that newborn neurons may contribute to the therapeutic effects of antidepressants by allowing the recovery of a proper hippocampal inhibitory feedback over the HPA axis, possibly by normalizing the communication between the hippocampus and stress integrative structures mediating its inhibitory influence, such as the bed nucleus of the stria terminalis. Hippocampal functions are however topographically segregated along its septo-temporal axis. Here we show that different mood-improving manipulations differentially regulate neurogenesis along this septo-temporal axis. This suggest different region-specific mechanisms involved in the regulation of neurogenesis and that newborn neurons may contribute to the therapeutic effects of antidepressants by modulating different aspects of hippocampal functions.

Neurogenèse hippocampique

Axe septo-temporal

Dépression

Antidépresseur

HPA

Stress

Dexamethasone

Noyau du lit de la strie terminale

Hippocampal neurogenesis

Septo-temporal axis

Depression

Antidepressant

HPA

Stress

Dexamethasone

Bed nucleus of the stria terminalis

Etude anatomique de l'amygdale étendue centrale chez la souris : connectivité générale et circuits cellule-spécifiques ; implications fonctionnelles dans la douleur / A study of mouse central extended amygdala : general connectivity and cell-type specific circuits ; functional implications in pain

Ye, Jiahao

08 February 2018

L'amygdale centrale (EAc) est un macrosystème du cerveau antérieur qui joue un rôle important dans la peur, l'anxiété et la douleur. Les deux composants clés, le noyau latéral du lit de la strie terminale (STL) et l’amygdale centrale (CeA), possèdent des caractéristiques neurochimiques, hodologiques et fonctionnelles très similaires. En dépit de cette vision simplifiée du STL et du CeA, de nombreuses questions résident quant à l'organisation mésoscopique des entrées et des sorties des subdivisions de l''EAc chez la souris. En outre, il reste à déterminer si ces similitudes de connexion sont également partagées au niveau cellulaire. Dans ce travail, nous avons abordé ces questions de manière comparative chez la souris. Nous avons trouvé de riches afférences et efférences préférentielles pour les différentes subdivisions de l'EAC, ainsi que des afférences convergentes et divergentes. Nous avons également mis en évidence deux groupes distincts de cellules exprimant la protéine kinase C delta (PKCδ) ou la somatostatine (SOM) qui sous-tendent des circuits neuronaux spécifiques parallèles dans le STL et le CeA, ainsi qu'entre les deux structures. Enfin, des données préliminaires suggèrent que les neurones exprimant la PKCδ dans le STL et le CeA pourraient être impliqués dans la douleur tonique. Ces organisations structurales parallèles, mais aussi différentielles, des circuits neuronaux dans le EAc pourraient sous-tendre des aspects fonctionnels similaires et dissociables de l'anxiété, de la peur et de la douleur. / Central extended amygdala (EAc) is a forebrain macrosystem that plays important roles in fear, anxiety and pain. The two key components, the lateral bed nucleus of stria terminalis (STL) and central nucleus of amygdala (CeA), are highly similar in their neurochemical, connectional, and functional features. Despite this simplified view of STL and CeA, much remains elusive of the mesoscopic inputs and outputs of EAc subdivisions in mouse model. Also, it is not known whether the connectional similarities are also shared at cellular level. Here, we addressed these question in comparative ways in mice. We found rich preferential inputs and outputs to different subdivisions of EAc, as well as convergent and divergent inputs. We also found two non-overlapping cell groups expressing either protein kinase C delta (PKCδ) or somatostatin (SOM) organize the parallel cell-type specific neuronal circuits in STL and CeA. Finally, preliminary data suggest that PKCδ in STL and CeA might be implicated in tonic pain. These parallel but also differential structural organizations of neuronal circuits in EAc might underlie similar and dissociable functional aspects of anxiety, fear and pain.

Amygdale étendue centrale

Noyau central de l’amygdale

Noyau du lit de la strie terminale

Neurocircuits

Protéine kinase C delta

Somatostatine

Central extended amygdala

Central nucleus of the amygdala

Bed nucleus of the stria terminalis

Neurocircuit

Protein kinase C delta

Somatostatin

573.8

572.8

The Interaction Between Corticosterone and Circadian Timing in Regulating Emotional Behaviors in the Rat

Ionadi, Amy

23 November 2021

No description available.

Neurosciences

Biomedical Research

glucocorticoid rhythms

corticosterone

circadian disruption

limbic

limbic disruption

limbic circadian rhythms

period2

per2

period genes

bed nucleus of the stria terminalis

BNST

central nucleus of the amygdala

CeA

anhedonia

depression

sucrose preference