Characterization of BOLD response patterns during inhibitory control in individuals with prenatal alcohol exposure

Fryer, Susanna Leigh.

January 2009

Thesis (Ph. D.)--University of California, San Diego, and San Diego State University, 2009. / Title from first page of PDF file (viewed May 8, 2009). Available via ProQuest Digital Dissertations. Vita. Includes bibliographical references (p. 67-79).

Impact d'un sevrage à l'alcool sur l'activité du réseau hippocampo-préfrontal au cours d'une épreuve de mémoire de travail : comparaison avec le stress chronique léger imprédictible / Impact of alcohol withdrawal on the hippocampal-prefrontal network activity during a working memory test : comparison with unpredictable chronic mild stress

Dominguez, Gaëlle

17 December 2014

Notre étude à pour but de déterminer l’implication de la corticostérone centrale sur l’activité du réseau hippocampe-cortex préfrontal (HPC-CPF) ainsi que son rôle dans l’émergence et le maintien d’altération de la mémoire de travail (MDT) durant l’alcoolisation chronique (12% durant 6 mois), ou bien après un sevrage aigu (1semaine) ou prolongé (6 semaines). Les effets du sevrage ont également été comparés à ceux résultant d’un stress chronique léger imprédictible (SCLI) modélisant la dépression. Nos données montrent que le sevrage et le SCLI, mais non l’alcoolisation, induisent des troubles de MDT, un déficit d’activation de pCREB (CPF et HPC) ainsi qu’une augmentation excessive des taux de corticostérone spécifiquement dans le CPF après un sevrage. Sur le plan pharmacologique, l’inhibition de la synthèse de la corticostérone restaure la MDT et l’activité de pCREB dans le CPF, chez les souris sevrées et SCLI. Nos résultats montrent également que l’augmentation de pCREB ou le blocage des récepteurs aux minéralocorticoïdes, dans le CPF, mais non dans l’HPC, restaure la MDT des souris sevrées. Ces résultats démontrent que la perturbation de taux de corticostérone dans le CPF joue un rôle clé dans l’émergence des troubles cognitifs et neuronaux après un sevrage. Nous avons également montré qu’un traitement chronique au Diazépam atténue ces altérations transitoirement. Notre étude suggère que des composés agissant sur l'activité de l’axe corticotrope peuvent constituer des stratégies alternatives pour prévenir l'émergence et le maintien des troubles cognitifs induits par le sevrage. / Our study was aimed to determine the involvement of central corticosterone on the activity of hippocampalprefrontal cortex (HPC-PFC) network and its role in the emergence of working memory (WM) alterations during chronic alcohol consumption (12% for 6 months), or after a short (1 week) or a prolonged (6 weeks) withdrawal periods. The alcohol-withdrawal effects were compared to those resulting from an unpredictable mild chronic stress (UCMS), modeling depression. Our data showed that withdrawal and UCMS, but not alcohol, induced WM disorders and deficits of CREB activation in both the PFC and HPC, and an excessive corticosterone increase specifically in the PFC of withdrawn animals. Pharmacological experiments showed that the inhibition of corticosterone synthesis restored pCREB activity in the PFC of both withdrawn and UCMS mice and improved WM. Furthermore, in withdrawn mice, the increase of pCREB or the blockade of the mineralo-corticoid receptor in the PFC, but not in the HPC, restored WM performance. These results demonstrated that corticosterone dysfunction into the PFC plays a key role in the long-lasting cognitive and neural activity disorders of alcohol-withdrawn mice. We also showed that chronic administration of diazepam reduced such alterations only transitorily. Thus, overall, our study suggests that compounds acting on the GCs activity may constitute alternative strategies to prevent the emergence and maintenance of cognitive disorders induced by alcohol withdrawal.

Sevrage à l’alcool

Corticostérone

Cortex préfrontal

Hippocampe

Mémoire de travail

CREB

Anxiété

Alcohol withdrawal

Corticosterone

Prefrontal cortex

Hippocampus

Working memory

CREB

Anxiety

Du doute à la vérification : étude comportementale et électrophysiologique de la prise de décision chez le primate non-humain / Doubt-related behavior in non-human primate : a behavioral and electrophysiological study

Bosc, Marion

16 December 2016

La vérification est un comportement volontaire mis en place à la suite d’un doute ou de la détection d’une erreur au cours d’une prise de décision. De très rares études se sont intéressées aux bases physiologiques de ce comportement, la majorité des travaux étant basés sur l’analyse des comportements pathologiques, comme les vérifications associées au trouble obsessionnel compulsif. Ces travaux de thèse ont consisté à déterminer les bases neurobiologiques du comportement de vérification chez le primate non-humain, un modèle de choix dans l’étude de la physiopathologie humaine. Pour cela deux singes macaque rhésus ont été entrainés à la tâche « Check-or-Go » permettant aux sujets de vérifier et éventuellement modifier la disponibilité d’une récompense avant de confirmer la décision afin d’accéder à cette même récompense. A l’aide d’une analyse comportementale, de dosages d’un biomarqueur de l’anxiété, d’enregistrements EEG du cortex préfrontal et d’enregistrements extracellulaires unitaires au niveau de CMAr et pré-SMA, nous avons pu montrer que : (i) les singes ont les capacités métacognitives d’exprimer un comportement volontaire de vérification similaire à celui observé chez l’Homme, (ii) ce comportement est sous tendu par l’émergence du doute, (iii) est corrélé au niveau d’anxiété, et (iv) est associé à des mécanismes cognitifs mettant en jeu le cortex préfrontal, et plus spécifiquement CMAr et pré-SMA. / Checking behavior is essential to maximizing gain and/or minimizing loss in our daily lives and relies on a normal action monitoring process. Although several studies have explored the neurobiological basis of doubt and uncertainty, both the physiology and physiopathology of checking, its most manifest behavioral consequence, remain poorly understood. This PhD project aims at characterizing physiological doubt and checking behavior in non-human primates. To do so, we trained two rhesus monkeys at a newly designed Check-or-Go task that allows the animal to multiple-check and change the availability of a reward before taking the final decision leading to that reward. During the task, we recorded frontal EEG activity and single neuronal activity in the rostral part of the ACC (CMAr), and the pre-supplementary motor area (pre-SMA), and quantified salivary cortisol in order to correlate this biological marker of anxiety with checking behavior. Our results show that, as humans, monkeys have the metacognitive ability to express voluntary checking behavior that depends on uncertainty monitoring, relates to anxiety and involves brain frontal areas.

Vérification

Doute

Primate non-humain

Cortex préfrontal

CMAr

Pré-SMA

Checking

Doubt

Non-human primate

Prefrontal cortex

CMAr

Pre-SMA

A replay driven model of spatial sequence learning in the hippocampus-prefrontal cortex network using reservoir computing / Un modèle de rejeu de séquences spatiales dans un réseau Hippocampe-Cortex préfrontal utilisant le reservoir computing

Cazin, Nicolas

12 July 2018

Alors que le rat apprend à chercher de multiples sources de nourriture ou d'eau, des processus d'apprentissage de séquences spatiales et de rejeu ont lieu dans l'hippocampe et le cortex préfrontal.Des études récentes (De Jong et al. 2011; Carr, Jadhav, and Frank 2011) mettent en évidence que la navigation spatiale dans l'hippocampe de rat implique le rejeu de l'activation de cellules de lieu durant les étant de sommeil et d'éveil en générant des petites sous séquences contigues d'activation de cellules de lieu cohérentes entre elles. Ces fragments sont observés en particulier lors d'évènements sharp wave ripple (SPWR).Les phénomènes de rejeu lors du sommeil dans le contexte de la consolidation de la mémoire à long terme ont beaucoup attiré l'attention. Ici nous nous focalisons sur le rôle du rejeu pendant l'état d'éveil.Nous formulons l'hypothèse que ces fragments peuvent être utilisés par le cortex préfrontal pour réaliser une tâche d'apprentissage spatial comprenant plusieurs buts.Nous proposons de développer un modèle intégré d'hippocampe et de cortex préfrontal capable de générer des séquences d'activation de cellules de lieu.Le travail collaboratif proposé prolonge les travaux existants sur un modèle de cognition spatiale pour des tâches orientés but plus simples (Barrera and Weitzenfeld 2008; Barrera et al. 2015) avec un nouveau modèle basé sur le rejeu pour la formation de mémoire dans l'hippocampe et l'apprentissage et génération de séquences spatiales par le cortex préfrontal.En contraste avec les travaux existants d'apprentissage de séquence qui repose sur des règles d'apprentissage sophistiquées, nous proposons d'utiliser un paradigme calculatoire appelé calcul par réservoir (Dominey 1995) dans lequel des groupes importants de neurones artificiels dont la connectivité est fixe traitent dynamiquement l'information au travers de réverbérations. Ce modèle calculatoire par réservoir consolide les fragments de séquence d'activations de cellule de lieu en une plus grande séquence qui pourra être rappelée elle-même par des fragments de séquence.Le travail proposé est supposé contribuer à une nouvelle compréhension du rôle du phénomène de rejeu dans l'acquisition de la mémoire dans une tâche complexe liée à l'apprentissage de séquence.Cette compréhension opérationnelle sera mise à profit et testée dans l'architecture cognitive incarnée d'un robot mobile selon l'approche animat (Wilson 1991) [etc...] / As rats learn to search for multiple sources of food or water in a complex environment, processes of spatial sequence learning and recall in the hippocampus (HC) and prefrontal cortex (PFC) are taking place. Recent studies (De Jong et al. 2011; Carr, Jadhav, and Frank 2011) show that spatial navigation in the rat hippocampus involves the replay of place-cell firing during awake and sleep states generating small contiguous subsequences of spatially related place-cell activations that we will call "snippets". These "snippets" occur primarily during sharp-wave-ripple (SPWR) events. Much attention has been paid to replay during sleep in the context of long-term memory consolidation. Here we focus on the role of replay during the awake state, as the animal is learning across multiple trials.We hypothesize that these "snippets" can be used by the PFC to achieve multi-goal spatial sequence learning.We propose to develop an integrated model of HC and PFC that is able to form place-cell activation sequences based on snippet replay. The proposed collaborative research will extend existing spatial cognition model for simpler goal-oriented tasks (Barrera and Weitzenfeld 2008; Barrera et al. 2015) with a new replay-driven model for memory formation in the hippocampus and spatial sequence learning and recall in PFC.In contrast to existing work on sequence learning that relies heavily on sophisticated learning algorithms and synaptic modification rules, we propose to use an alternative computational framework known as reservoir computing (Dominey 1995) in which large pools of prewired neural elements process information dynamically through reverberations. This reservoir computational model will consolidate snippets into larger place-cell activation sequences that may be later recalled by subsets of the original sequences.The proposed work is expected to generate a new understanding of the role of replay in memory acquisition in complex tasks such as sequence learning. That operational understanding will be leveraged and tested on a an embodied-cognitive real-time framework of a robot, related to the animat paradigm (Wilson 1991) [etc...]

Hippocampe

Cortex préfrontal

Reservoir

Problème du voyageur de commerce

Hippocampus

Prefrontal cortex

Replay

Sharp wave ripples

Traveling salesman problem

Reservoir computing

612.8

Provocação social e comportamento agressivo : envolvimento dos receptores 5-HT1A e 5-HT1B no córtex pré-frontal

Centenaro, Lígia Aline

January 2008

A provocação social é um método utilizado em animais de laboratório para a indução de elevados níveis de agressividade, produzindo padrões comportamentais semelhantes ao de indivíduos violentos. Estudos prévios utilizando drogas que atuam seletivamente sobre os receptores 5-HT1A e 5-HT1B demonstraram uma redução pronunciada no comportamento agressivo. Um dos mais importantes sítios de ação para esses agentes serotonérgicos é o córtex pré-frontal, uma região cerebral particularmente relevante no controle inibitório da agressividade e da impulsividade. O objetivo do presente estudo foi verificar os possíveis efeitos anti-agressivos da microinjeção de 8-OH-DPAT e CP-93,129 (agonistas específicos dos receptores 5-HT1A e 5-HT1B, respectivamente) na região ventro orbital do córtex pré-frontal de camundongos machos provocados socialmente. Para confirmar a especificidade do receptor, antagonistas 5-HT1A e 5-HT1B (WAY-100,635 e SB-224,289, respectivamente) também foram microinjetados na mesma região cerebral. 8-OH-DPAT na dose de 1.0 µg reduziu significativamente a freqüência de mordidas. A menor dose de CP- 93,129 (0.1 µg) também diminuiu o número de mordidas e de ataques laterais. Tais efeitos anti-agressivos não foram acompanhados por alterações no restante do repertório comportamental. A participação específica desses receptores foi verificada pela reversão dos efeitos com a utilização de WAY-100,635 (10.0 µg) e SB-224,289 (1.0 µg). Nossos resultados confirmam o envolvimento da região VO CPF e dos receptores 5-HT1A e 5-HT1B na modulação de altos níveis de agressividade, sem conseqüentes alterações em outras rotinas motoras. / Social instigation is used in rodents to induce high levels of aggression, a pattern of behavior similar to that of violent individuals. This procedure consists of a brief exposure to a provocative stimulus male, before direct confrontation with an intruder. Studies using 5- HT1A and 5-HT1B agonist receptors show a reduction in aggressive behavior. An important site of action for these drugs is the ventral orbito frontal cortex (VO PFC), an area of the brain which is particularly relevant in the inhibitory control of aggressiveness and impulsiveness. The objective of the present study was to assess the anti-aggressive effects of 5-HT1A and 5- HT1B agonist receptors (8-OH-DPAT and CP-93,129) on the VO PFC of socially provoked male mice. To confirm the specificity of the receptor, 5-HT1A and 5-HT1B antagonist receptors (WAY-100,635 and SB-224,289) were microinjected into the same area, in order to reverse the agonist effects. 8-OH-DPAT at 1.0 µg dose reduced the frequency of attack bites. The lowest dose of CP-93,129 (0.1 µg) also decreased the number of attack bites and lateral threats. The anti-aggressive effects were not accompanied by impairment of non-aggressive activities. Specific participation of the 1A and 1B receptors was verified by reversal of antiaggressive effects using selective antagonists WAY-100,635 (10.0 µg) and SB-224,289 (1.0 µg). In conclusion, the decrease in aggressiveness observed with microinjections of 5-HT1A and 5-HT1B receptor agonists into the VO PFC of socially provoked mice, supports the hypothesis that activation of these receptors modulates high levels of aggression in a behaviorally specific manner.

Córtex cerebral

Receptores de serotonina

Agonistas de serotonina

Agressão

Aggression

Social instigation

Serotonin

5-HT1A receptor

5-HT1B receptor

Prefrontal cortex

Provocação social e comportamento agressivo : envolvimento dos receptores 5-HT1A e 5-HT1B no córtex pré-frontal

Centenaro, Lígia Aline

January 2008

A provocação social é um método utilizado em animais de laboratório para a indução de elevados níveis de agressividade, produzindo padrões comportamentais semelhantes ao de indivíduos violentos. Estudos prévios utilizando drogas que atuam seletivamente sobre os receptores 5-HT1A e 5-HT1B demonstraram uma redução pronunciada no comportamento agressivo. Um dos mais importantes sítios de ação para esses agentes serotonérgicos é o córtex pré-frontal, uma região cerebral particularmente relevante no controle inibitório da agressividade e da impulsividade. O objetivo do presente estudo foi verificar os possíveis efeitos anti-agressivos da microinjeção de 8-OH-DPAT e CP-93,129 (agonistas específicos dos receptores 5-HT1A e 5-HT1B, respectivamente) na região ventro orbital do córtex pré-frontal de camundongos machos provocados socialmente. Para confirmar a especificidade do receptor, antagonistas 5-HT1A e 5-HT1B (WAY-100,635 e SB-224,289, respectivamente) também foram microinjetados na mesma região cerebral. 8-OH-DPAT na dose de 1.0 µg reduziu significativamente a freqüência de mordidas. A menor dose de CP- 93,129 (0.1 µg) também diminuiu o número de mordidas e de ataques laterais. Tais efeitos anti-agressivos não foram acompanhados por alterações no restante do repertório comportamental. A participação específica desses receptores foi verificada pela reversão dos efeitos com a utilização de WAY-100,635 (10.0 µg) e SB-224,289 (1.0 µg). Nossos resultados confirmam o envolvimento da região VO CPF e dos receptores 5-HT1A e 5-HT1B na modulação de altos níveis de agressividade, sem conseqüentes alterações em outras rotinas motoras. / Social instigation is used in rodents to induce high levels of aggression, a pattern of behavior similar to that of violent individuals. This procedure consists of a brief exposure to a provocative stimulus male, before direct confrontation with an intruder. Studies using 5- HT1A and 5-HT1B agonist receptors show a reduction in aggressive behavior. An important site of action for these drugs is the ventral orbito frontal cortex (VO PFC), an area of the brain which is particularly relevant in the inhibitory control of aggressiveness and impulsiveness. The objective of the present study was to assess the anti-aggressive effects of 5-HT1A and 5- HT1B agonist receptors (8-OH-DPAT and CP-93,129) on the VO PFC of socially provoked male mice. To confirm the specificity of the receptor, 5-HT1A and 5-HT1B antagonist receptors (WAY-100,635 and SB-224,289) were microinjected into the same area, in order to reverse the agonist effects. 8-OH-DPAT at 1.0 µg dose reduced the frequency of attack bites. The lowest dose of CP-93,129 (0.1 µg) also decreased the number of attack bites and lateral threats. The anti-aggressive effects were not accompanied by impairment of non-aggressive activities. Specific participation of the 1A and 1B receptors was verified by reversal of antiaggressive effects using selective antagonists WAY-100,635 (10.0 µg) and SB-224,289 (1.0 µg). In conclusion, the decrease in aggressiveness observed with microinjections of 5-HT1A and 5-HT1B receptor agonists into the VO PFC of socially provoked mice, supports the hypothesis that activation of these receptors modulates high levels of aggression in a behaviorally specific manner.

Córtex cerebral

Receptores de serotonina

Agonistas de serotonina

Agressão

Aggression

Social instigation

Serotonin

5-HT1A receptor

5-HT1B receptor

Prefrontal cortex

Déficits synaptiques et comportementaux des voies méso-cortico-limbiques induits par le cannabis ou un déséquilibre alimentaire en acides gras polyinsaturés / Consequences of prenatal cannabis exposure or adolescent omega-3 deficiency on synaptic and behavioral functions in mesolimbic pathway

Bara, Anissa

07 December 2017

La malnutrition et la consommation de cannabis font partie des grands problèmes de santé publique.L'objectif de cette thèse était d’étudier les conséquences de ces facteurs externes sur les voies mésocorticolimbiques.Le système endocannabinoïde est un complexe multimoléculaire incluant les endocannabinoïdes (eCB), molécules lipidiques synthétisées à partir des oméga-3, les enzymes de synthèse et de dégradation des eCB, et les récepteurs aux cannabinoïdes de type 1 (CB1R), principale cible du cannabis. Nos travaux montrent qu’une alimentation déficiente en oméga-3, tout comme une exposition prénatale aux cannabinoïdes, altère la signalisation endocannabinoïde dans les régions étudiées. Nous avons découvert des altérations sévères du répertoire comportemental émotionnel et cognitif chez les souris déficientes en oméga-3 corrélées à des déficits spécifiques de la plasticité synaptique dépendante du complexe de signalisation mGlu5/eCB dans le PFC et le NAc. Nous avons mis en évidence une divergence sexuelle des effets à long-terme induits par une exposition prénatale aux cannabinoïdes chez la progéniture à l’âge adulte. Nous avons observé une diminution de l’interaction sociale chez les mâles mais pas chez les femelles exposés in-utero aux cannabinoïdes. Ce déficit comportemental était associé à une hyperexcitabilité des neurones pyramidaux et à l’absence spécifique de la plasticité synaptique endocannabinoïde dans le PFC des mâles. Enfin, dans nos deux modèles d’étude, la potentialisation pharmacologique du complexe macromoléculaire de signalisation mGlu5/eCB normalise les déficits synaptiques et comportementaux, ouvrant la voie sur de nouvelles cibles thérapeutiques. / Malnutrition and the use of cannabis are amongst the public’s most signficant problems. In the past decades, drastic dietary changes are accompanied by low consumption of essential omega-3 polyunsaturated fatty acids (PUFAs). Cannabis is the most frequently used illicit drug by pregnant women and young women of reproductive age. This thesis aimed to study the consequences of these environmental factors on synaptic and behavioral functions of the mesocorticolimbic system, particularly the nucleus accumbens (NAc) and prefrontal cortex (PFC). The endocannabinoid system is a multimolecular complex including endocannabinoids (eCB), lipidic molecules synthesized from PUFAs, eCB synthesizing and degradating enzymes, and cannabinoid receptor type 1 (CB1R), the main target of cannabis. Our work shows that an omega-3 deficiency, as well as PCE, alters endocannabinoid-signaling in the areas of interest.We found severe alterations in the emotional and cognitive behavioral repertoire of omega-3 deficient mice that correlated with specific alterations in synaptic plasticity mediated by mGlu5/eCB signaling complex in PFC and NAc.We showed a sexual divergence in the long-term effects of PCE in adult offsprings. We observed a decrease in social interaction in males but not in females prenatally exposed cannabinoids. This behavioral deficit was associated with hyperexcitability of the pyramidal neurons and a specific lack of endocannabinoid synaptic plasticity in the male PFC.Finally, in our two study models, pharmacological enchancement of the mGlu5/eCB macromolecular signaling complex normalized synaptic and behavioral deficits, illuminating routes to new therapeutic targets.

Cannabis

Nutrition

Endocannabinoïde

Cortex préfrontal

Noyau accumbens

Grossesse

Cannabis

Malnutrition

Endocannabinoids

Prefrontal cortex

Nucleus accumbens

Pregnancy

612

Modulação hormonal das alterações psicofisiológicas induzidas pelo uso crônico do anestésico dissociativo ketamina / Hormonal modulation of the psychophysiological changes induced by the chronic use of the dissociative anesthetic ketamine

Lígia Santos Bueno Brasilino

27 June 2017

A ketamina, antagonista não competitivo de receptores NMDA, apresenta potentes efeitos psicomiméticos, sendo capaz de acentuar o estado psicótico de pacientes esquizofrênicos. Uma das áreas cerebrais afetadas por seu uso é o córtex pré-frontal, já que o desempenho em tarefas que dependem de sua atividade é profundamente alterado pela administração aguda de ketamina. Assim como na esquizofrenia, estas alterações podem sofrer influência de fatores hormonais, alterações estas que podem ser explicadas pelos efeitos dos hormônios sexuais femininos, como o estrogênio, os quais apresentam um papel regulador sobre os sistemas dopaminérgicos, serotonérgicos, glutamatérgicos e GABAérgicos, todos afetados pelos efeitos agudos e crônicos do uso de ketamina. Este projeto, portanto, teve como meta avaliar os possíveis efeitos da administração crônica e retirada de ketamina sobre a expressão de comportamentos relacionados à ansiedade humana em ratas da linhagem Wistar, assim como a influência dos hormônios estradiol e a progesterona sobre esta variável. As possíveis alterações farmacológicas induzidas pela administração crônica de ketamina sobre os sistemas dopaminérgicos e serotoninérgicos da divisão pré-límbica (PrL) do córtex pré-frontal medial serão avaliadas através da injeção local de antagonista/agonista específicos. Nossos dados reforçam a ideia de que a ketamina demonstra de forma significativa a expressão da resposta aprendida de medo. E também, os dados mostram que a abstinência da droga altera este comportamento, particularmente a capacidade cognitiva relacionada ao encadeamento de estímulos. Da mesma forma que outras drogas de abuso, estas alterações parecem envolver tanto o sistema dopaminérgico quanto serotoninérgico do CPFm. / Ketamine, a non-competitive antagonist of NMDA receptors, has potent psychomimetic effects, being able to accentuate the psychotic state of schizophrenic patients. One of the brain areas affected by its use is the prefrontal cortex, since performance in tasks that depend on its activity is profoundly altered by the acute administration of ketamine. As in schizophrenia, these changes may be influenced by hormonal factors, which can be explained by the effects of female sex hormones, such as estrogen, which play a role in the dopaminergic, serotonergic, glutamatergic and GABAergic systems, all affected acute and chronic effects of ketamine use. This project therefore aimed to evaluate the possible effects of chronic administration and withdrawal of ketamine on the expression of behaviors related to human anxiety in Wistar rats, as well as the influence of the hormones estradiol and progesterone on this variable. The possible pharmacological changes induced by chronic ketamine administration on the dopaminergic and serotonergic systems of the prelambial (PrL) division of the medial prefrontal cortex will be assessed by specific local antagonist / agonist injection. Our data reinforce the idea that ketamine demonstrates significantly the expression of the learned response of fear. Also, the data show that drug abstinence alters this behavior, particularly the cognitive capacity related to the chaining of stimuli. Like other drugs of abuse, these changes appear to involve both the dopaminergic and serotonergic system of CPFm.

Alterações eletrofisiológicas coliculares induzidas pela interrupção da administração crônica de ketamina / Collicular electrophysiological changes induced by interruption of chronic administration of ketamine

Roberta Monteiro Incrocci

22 June 2017

A Cetamina, antagonista não competitivo de receptores de glutamato do tipo NMDA, é uma substância com propriedades dissociativas originalmente utilizada como anestésico que apresenta a característica de intensificar as experiências sensoriais. Apesar de seus conhecidos efeitos sobre os aspectos cognitivos e comportamentais, poucos estudos préclínicos foram conduzidos para tentar detectar os efeitos físicos e/ou comportamentais da abstinência de Cetamina após consumo prolongado. Partindo do princípio de que os efeitos da Cetamina sobre a neurotransmissão glutamatérgica induzem alguns dos sintomas observados durante surtos esquizofrênicos, como as alucinações auditivas, e sabendo que o colículo inferior tem sua função ligada ao processamento da informação sensorial a estímulos sonoros, neste estudo avaliamos os efeitos da modulação glutamatérgica na área cortical pré-límbica (PrL) sobre os potenciais evocados auditivos eliciados (PEAs) no colículo inferior. As medidas foram realizadas no fim do tratamento, ou seja, no 14° dia, 24 horas e 6 dias após a retirada da cetamina. Em nossos resultados obtivemos que a administração local de NMDA, foi capaz de diminuir a amplitude dos PEAs, os quais foram recuperados 24 horas após. A cetamina sistêmica não foi capaz de diminuir os PEAs, uma provável consequência da interação com outros receptores além do NMDA. Os testes realizados 6 dias após a interrupção ao tratamento crônico de cetamina, demonstraram uma forma inesperada de U, diferente da curva padrão de U invertido. Além disso, encontramos que as alterações provocadas pela cetamina são dependentes dos níveis dos mecanismos dopaminérgico e glutamatérgicos. Estes resultados demonstram que o processamento auditivo no colículo inferior está sob controle direto no Pré límbico e permitem ampliar o conhecimento atual da neurobiologia por evidenciar novas informações do efeito crônico da cetamina. / Ketamine is a non-competitive NMDA receptor antagonist. It is a substance with dissociative properties originally used as anesthetic, which can intensify sensory experiences, being also capable of accentuating the psychotic state in patients with schizophrenia. Despite its known effect on cognitive aspects and behavior, there are few preclinical studies conducted to identify physical and behavioral effects of ketamine withdrawal after its long-term use. Moreover, little is known about the impact of repetitive use of ketamine on brain structures and their functioning. The inferior colliculus, part of the midbrain tectum, is mainly related to auditory information processing, sending information to the motor centers and participating in the modulation and expression of specific behaviors, such as attack and predatory. Therefore, it is related to the biological importance of sounds to survival. The auditory hallucinations induced by schizophrenic psychotic crisis has as neural correspondent the activation of inferior colliculus and cortical areas. It is not yet known which cortical area is connected to the modulation of alterations induced by electrophysiological potential registered in inferior colliculus. Considering that the effects of ketamine on glutamate neurotransmission induces the symptoms observed during schizophrenic psychotic crisis, such as auditory hallucinations, and that inferior colliculus is related to the sensory information processing and auditory pathways, the present work evaluates the effects of glutamate modulation on pre-limbic cortical area on auditory evoked potential startle in inferior colliculus of rats tested during and after interruption of chronic treatment with ketamine

Abuso de drogas

Cetamina

Colículo inferior

potencial evocado auditivo

Auditory Evoked Potential

Glutamate

Inferior Colliculus

Ketamine

Prefrontal Cortex.

Participação do sistema glutamatérgico do córtex pré-frontal medial ventral na modulação das consequências comportamentais do estresse de nado forçado / Participation of the glutamatergic system of the ventral medial prefrontal cortex in the modulation of behavioral consequences of forced swimming stress.

Vitor Silva Pereira

20 July 2011

Acredita-se que quantidades elevadas de glutamato estejam relacionadas à neurobiologia da depressão e trabalhos recentes indicam que a quantidade de glutamato cortical está aumentada em pacientes depressivos quando comparada a indivíduos sadios. Dentre as estruturas corticais, o córtex pré-frontal medial ventral (CPFMv), dividido em infralímbico (IL) e pré-límbico (PL), tem sido mais frequentemente implicado no desenvolvimento de transtornos mentais, como a depressão. Considerando evidências de que o IL e o PL podem agir de forma diferente quanto ao controle emocional em resposta ao estresse, o presente trabalho visou avaliar a hipótese de participação da neurotransmissão glutamatérgica do CPFMv, IL e PL, no desenvolvimento das respostas comportamentais ao estresse de nado forçado, um modelo preditivo de efeitos antidepressivos. Para tal, investigamos os efeitos induzidos pela administração no IL ou no PL, de LY 235959, um antagonista dos receptores glutamatérgicos do tipo NMDA, em três momentos diferentes, em animais submetidos ao teste do nado forçado. A administração de LY 235959, no IL ou PL, produziu efeitos do tipo antidepressivo, sendo esse efeito sensível ao tempo de administração da droga em relação à exposição ao nado forçado. Sendo assim, foi observado efeito antidepressivo quando o bloqueio glutamatérgico no PL ocorreu imediatamente após o nado ou antes da re-exposição ao estresse; enquanto no IL, o tratamento promoveu efeito antidepressivo apenas quando administrado antes da re-exposição ao nado. Portanto, os resultados sugerem que a neurotransmissão glutamatérgica mediada por receptores NMDA no CPFMv contribui para o desenvolvimento de consequências comportamentais do estresse, de modo que o bloqueio desses receptores facilitaria a adaptação ao estresse e induziria efeitos do tipo-antidepressivo. Os resultados sugerem, ainda, que o PL e o IL participam de maneira semelhante na modulação desses processos. / It is believed that high amounts of glutamate are related to the neurobiology of depression. Recent studies indicate that the amount of cortical glutamate is increased in depressed patients compared to healthy subjects. Among the cortical structures, the ventral medial prefrontal cortex (CPFMv), divided into infralimbic (IL) and prelimbic (PL) has been most often implicated in the development of mental disorders, such as depression. Considering that IL and PL play different roles on the emotional control in response to stress, this study was aimed to evaluate the hypothesis that the activation of glutamate NMDA receptors within the CPFMv, IL and PL, would facilitate the development of forced swimming-induced behavioral responses, an animal model predictive of antidepressants effects. To this end, we investigated the effects induced by the administration in the PL or the IL of LY 235959, an antagonist of NMDA receptors, at three different times, in animals submitted to the forced swimming test. The administration of LY 235959, in the IL or PL, produced antidepressant-like effects, and this effect is sensitive to moment of drug administration in relation to exposure to forced swimming. Thus, the antidepressant-like effect was observed when blocking the NMDA blockade into the PL occurred immediately after swimming or before re-exposure to stress, whereas in the IL, such treatment promoted antidepressant-like effect only when administered before re-exposure to swimming. Therefore, the results suggest that the glutamatergic neurotransmission mediated by NMDA receptors in the CPFMv contributes to the development of behavioral consequences of stress, so that blocking these receptors would facilitate the adaptation to stress and induce antidepressant-like effects. The results also suggest that PL and IL may be similarly involved in modulating these processes.

Comportamento

Córtex pré-frontal medial ventral

Depressão

Glutamato

Nado forçado.

Behavior

Depression

Forced Swim.

Glutamate

Ventral Medial Prefrontal Cortex