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

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

Implication de l'hippocampe ventral et des noyaux reuniens et rhomboïde du thalamus dans les processus cognitifs sous-tendant la mémoire spatiale chez le Rat / lnvolvement of the ventral hippocampus and reuniens and rhomboid thalamic nuclei in cognitive processes underlying spatial memory in rats

Loureiro, Michaël

30 November 2012

Ce travail de thèse avait pour objectif d’étudier le rôle de l’hippocampe (HPC) ventral et des noyaux reuniens (Re) et rhomboïde (Rh) du thalamus dans les processus cognitifs qui sous-tendent la mémoire spatiale chez le Rat. Par l’utilisation d’approches complémentaires combinant l’imagerie cérébrale, la lésion excitotoxique, l’inactivation fonctionnelle réversible et des évaluations comportementales, nos résultats ont mis en évidence : (1) l’implication spécifique de l’HPC ventral uniquement dans le rappel d’informations spatiales ; (2) un rôle-clé des noyaux Re et Rh dans la persistance d’un souvenir spatial ; (3) l’implication des noyaux Re et Rh dans le labyrinthe du double-H, un nouveau test nécessitant d’une part, l’utilisation d’informations spatiales dépendant de l’intégrité de l’HPC dorsal, et d’autre part, une flexibilité comportementale, impliquant le cortex préfrontal médian. Ainsi, l’ensemble de ces résultats permet de proposer l’existence d’un circuit HPC-préfronto-thalamique impliqué dans divers aspects du traitement des informations spatiales. / The main objective of this thesis was to investigate the role of the ventral hippocampus (HPC) and the reuniens (Re) and rhomboid (Rh) thalamic nuclei in the cognitive processes underlying spatial memory in the Rat. If our results first confirmed, in the Morris water maze, the role of the dorsal HPC in the acquisition and retrieval of a spatial reference memory, we demonstrated the specific involvement of the ventral HPC only in the recall of spatial information. In addition, by using complementary approaches combining brain imaging, excitotoxic lesion and reversible functional inactivation, we were able to show for the first time a key role for the Re and Rh in the persistence of a spatial memory (25 days). Finally, the third set of experiments has highlighted the involvement of the Re and Rh in a mnemonic task performed in a new test, the double-H maze, which requires the use of spatial information depending on the integrity of the dorsal HPC, and a behavioral flexibility, involving the medial prefrontal cortex. Thus, taken together, these results suggest the involvement of a HPC-prefronto-thalamic network in various aspects of spatial information processing.

Hippocampe ventral

Noyau reunien du thalamus

Mémoire spatiale

Rat

Lésion excitotoxique

Lidocaïne

Piscine de Morris

Inactivation

Ventral hippocampus

Reuniens and rhomboid thalamic nuclei

Spatial memory

Rat

Excitotoxic lesion

573.8

616.8

Rôle d'un circuit hippocampo-cortico-thalamique dans les processus de mémoire spatiale chez le rat / Role of a hippocampal-cortical-thalamic circuit in spatial memory processes in the rat

Cholvin, Thibault

22 September 2014

Cette thèse avait pour objectif d’étudier le rôle du circuit composé de l’hippocampe (Hip), du cortex préfrontal médian (mPFC) et des noyaux reuniens et rhomboïde (ReRh) du thalamus dans les processus cognitifs qui sous-tendent la mémoire spatiale chez le Rat. Nous avons montré que les noyaux ReRh pourraient être impliqués dans la consolidation systémique, mécanisme nécessaire à la persistance des souvenirs et nécessitant un dialogue hippocampo-cortical. Nous avons mis en évidence que l’activité neuronale du mPFC durant le rappel d’une mémoire ancienne dépend des noyaux ReRh, ainsi que l’implication de ces noyaux dans une tâche de mémoire spatiale (dépendante de l’Hip) nécessitant une flexibilité comportementale (impliquant le mPFC). Enfin, nous avons montré un rôle du mPFC dans le rappel d’une mémoire spatiale récente. Ces résultats mettent en évidence l’importance de ce circuit hippocampo-cortico-thalamique dans le traitement et la persistance des informations spatiales chez le Rat. / This thesis aimed to investigate the role of a circuit encompassing the hippocampus (Hip), the medial prefrontal cortex (mPFC) and the reuniens and rhomboid nuclei (ReRh) of the thalamus in cognitive processes underlying spatial memory in rats. We first showed that ReRh nuclei may be involved in systemic consolidation, a mechanism necessary for memory persistence and requiring hippocampal-cortical interactions. We confirmed these findings in a second study showing that mPFC neuronal activity during recall of a remote spatial memory depends on ReRh thalamic nuclei. We also showed the involvement of the ReRh nuclei in a mnemonic task requiring the use of both spatial information (dependent on the Hip) and behavioral flexibility (involving the mPFC). Finally, we found a role of the mPFC in the recall of recent spatial memory. Taken together, these results highlight the importance of a hippocampo-cortico-thalamic circuit in the processing and persistence of spatial information in the Rat.

Hippocampe

Cortex préfrontal médian

Mémoire spatiale

Flexibilité

Double-H

Piscine de Morris

Lésion excitotoxique

Thalamus

Rat

Reuniens and rhomboid nuclei

Thalamus

Hippocampus

Medial prefrontal cortex

Spatial memory

Flexibility

Morris water maze

Double-H

Excitotoxic lesion

Rat

573.8

616.8

An evaluation of cognitive deficits in a rat-model of Huntington's disease

García Aguirre, Ana I.

January 2016

The purpose of this thesis was to develop methodology by which treatments for the cognitive impairments in Huntington's disease (HD) could be tested. As such, the thesis focused mainly on evaluating rats with quinolinic acid (QA) lesions of the striatum, as this manipulation mimics some aspects of the neural damage in Huntington's disease, to try to identify cognitive deficits of HD resulting from cell loss in the striatum. In the first part (Chapters 3-5), the role of the striatum in implicit memory was investigated. Chapter 3 compared the performance of rats and humans on a reaction time task that evaluated implicit memory by presenting visual stimuli with differing probabilities which change over time. Although rats made higher percentage of incorrect responses and late errors, both groups showed a similar pattern of reaction times. Chapter 4 investigated whether implicit memory (the computation of probabilities to predict the location of a stimulus) was affected by selective blockade of dopaminergic transmission at the D1 or D2 receptors by SCH-23390 and raclopride, respectively. Reaction times were slower with SCH-23390 and raclopride, but only SCH-23390 reduced errors to the least probable target location. Chapter 5 used the same task to evaluate implicit memory in rats with QA lesions of the dorsomedial striatum (DMS). Implicit memory was not affected by lesions of the DMS, which suggested that once a task that requires implicit memory has been learned, the DMS was not involved in sustaining the performance of the task. The second part of this thesis (Chapter 6), explored the contribution of the DMS in habit formation. DMS lesioned rats did not show habitual responding, and were not impaired in learning a new goal-directed behaviour. The third part (Chapters 7 and 8), investigated the role of the dorsal striatum in reversal learning, attentional set-formation, and set-shifting. Dorsal striatum lesioned rats were not impaired in reversal learning, but had a diminished shift-cost, which suggested that dorsal striatum lesions disrupted the formation of attentional sets. These results showed that although QA lesions of the dorsal striatum mimic some aspects of the neural damage in HD, they did not result in the same cognitive deficits observed in patients with HD, at least using the tasks presented in this thesis. However, other animal models of HD could be evaluated using the different tasks presented in this thesis to continue the search of a reliable animal model of HD in which treatments for the disease could be evaluated.

616.85