Identification du connectome de l'aire 24 du cortex cingulaire antérieur dans le contexte du développement de phénotypes de type anxio-dépressif chez la souris : implication de la voie amygdalo-cingulaire / Identification of the anterior cingulate cortex area 24 in the context of anxiodepressive-like phenotypes development in the mouse : implication of the amygdalo-cingulate pathway

Fillinger, Clémentine

09 June 2017

Le cortex cingulaire antérieur (CCA) est une région préfrontale située au centre d’un réseau permettant l’échange d’informations cognitives, motrices, limbiques et viscérales, la plaçant ainsi comme un sujet incontournable dans l’étude de pathologies complexes telles que les troubles anxio-dépressifs. Afin de pouvoir aborder ces pathologies chez la souris, nous avons établi par traçage neuronal le connectome complet des différentes aires composant le CCA. Nous avons ainsi montré qu’une grande majorité des structures de ce connectome communique de manière réciproque avec cette région et que, selon les aires cingulaires, des spécificités de densité d'innervation et de topographie peuvent exister. Ceci suggère des fonctions partagées mais également des rôles plus spécifiques à chaque aire. A partir de ce connectome, nous avons ensuite montré, par une approche optogénétique associée à des tests comportementaux, que l'activation répétée de la projection de l’amygdale au CCA est susceptible d'induire des comportements de type anxio-dépressif chez des souris naïves. Ce travail met donc en évidence le rôle d'une partie du connectome du CCA dans l'établissement des troubles de l'humeur. / The anterior cingulate cortex (ACC) is a prefrontal region located at the center of a network allowing the sharing of cognitive, motor, limbic and visceral information, placing it as an interesting target for the study of complex pathologies like mood disorders. To investigate these diseases in mice, we provided the complete connectome of each ACC areas by a tract-tracing approach. We demonstrated that the majority of structures constituting this connectome are reciprocally connected with the ACC and that some density and topographical connection specificities were observed among cingulate areas. These results potentially suggest some shared functions between cingulate areas, also completed by specific roles inherent to each area. Using this connectome, we demonstrated that the repeated activation of the amygdala projection to the ACC was able to induce anxiodepressive-like behaviors in naïve mice, by using optogenetics combined with behavioral tests. This study highlights for the first time the implication of a portion of the ACC connectome in the establishment of mood disorders.

Cortex cingulaire antérieur

Connectome

Traçage

Anxiété

Dépression

Anterior cingulate cortex

Connectome

Tract-tracing

Anxiety

Depression

573.8

612.8

616.8

The role of moral cognition and emotions in remitted major depressive disorder

Workman, Clifford

January 2016

Background: The aim of this thesis was to investigate the relationship of moral cognition and emotions to the pathophysiology of major depressive disorder (MDD). Patients with MDD may experience excessive guilt or self-blaming biases despite recovery from the depressed state. Since guilt is a moral emotion thought to motivate altruistic behaviours, it has been hypothesized that elevated self-blame in MDD may result in pathological increases to altruism in some patients. The relationship of self-blame to altruistic choices in individuals with remitted MDD (rMDD), however, has not been established. Guilt has been shown to activate the subgenual cingulate and adjacent septal region (SCSR) which is of known importance to the pathophysiology of MDD. Since MDD is thought to arise from network-level dysfunctions, and moral cognition and emotions are hypothesized to emerge from network-level binding, investigating resting-state SCSR functional connectivity in rMDD patients and healthy control (HC) participants could reveal networks of potential relevance both to MDD and to moral cognition and emotions. Chapter 2: We investigated whether melancholic rMDD patients could be distinguished from non-melancholic and HC groups on the basis of resting-state functional connectivity to an SCSR seed region. Lower SCSR-amygdala connectivity distinguished the melancholic rMDD group from non-melancholic and HC groups. Chapter 3: We investigated whether patients who remained resilient to recurring depressive episodes were distinguishable from recurring episode MDD and HC groups on the basis of resting-state connectivity to an SCSR seed region. Lower interhemispheric SCSR connectivity distinguished the resilient MDD patients from the recurring episode MDD and HC groups. Chapter 4: We measured explicit and implicit preferences for social options with and without altruistic motivations relative to selfish options in the rMDD and HC groups during emotion priming to modulate feelings of guilt. The rMDD patients explicitly preferred prosocial options (i.e., social options and altruism directed towards friends or colleagues) less than HC participants. Regardless of group, guilt priming increased explicit and implicit preferences for altruism towards strangers. Chapter 5: We investigated whether explicit and/or implicit preferences for prosocial options during guilt priming were correlated with resting-state connectivity to an SCSR seed region, and whether this relationship could distinguish the rMDD and HC groups. Across all participants, implicit prosocial choice preference negatively correlated with connectivity between the SCSR and right temporoparietal junction (TPJ). The relationship of SCSR-TPJ connectivity to implicit preferences for social options and for altruism towards friends and colleagues was weaker in the rMDD group compared to the HC group, particularly for implicit altruism. Conclusions: We identified resting-state SCSR networks associated with vulnerability to melancholia and with resilience to recurring depressive episodes. Patients with rMDD explicitly preferred options entailing social withdrawal, a symptom associated with MDD vulnerability. Irrespective of group, guilt motivated altruism towards strangers but not friends and colleagues. Implicit prosociality was negatively associated with connectivity in a social agency network, and the comparatively weak relationships between connectivity and implicit choice preferences in rMDD patients may reflect a vulnerability factor for MDD.

616.85

Investigando os aprendizados subsequentes : mecanismos plásticos e dependência temporal

Crestani, Ana Paula

January 2018

A formação de memórias de medo contextuais, como as estudadas no presente trabalho, requer a indução da plasticidade sináptica iniciada pela ativação de receptores transmembrana localizados nos neurônios de estruturas encefálicas como o hipocampo. O fluxo iônico mediado pelos receptores N-metil-D-aspartato (NMDARs) é essencial para ativar vias de sinalização intracelular que darão suporte à formação da memória. No entanto, esses receptores parecem não ser necessários em situações onde os animais passaram por uma experiência prévia similar a que está sendo aprendida. Dessa forma, um aprendizado anterior pode modificar os mecanismos de plasticidade que serão utilizados para codificar uma nova informação, caracterizando um fenômeno de metaplasticidade. Esse fenômeno ocorre quando os animais são pré-expostos ao local onde posteriormente serão submetidos a um aprendizado associativo ou quando são re-submetidos a mesma tarefa comportamental com dicas contextuais/espaciais diferentes. No presente trabalho, investigamos (i) os mecanismos de plasticidade sináptica (receptores) e de plasticidade não-sináptica (excitabilidade neuronal) recrutados para a formação do segundo aprendizado e (ii) se a independência dos NMDARs é mantida quando a memória anterior foi adquirida remotamente. Os animais utilizados nesse trabalho (camundongos ou ratos) foram expostos a dois aprendizados sequenciais realizados na tarefa de condicionamento aversivo ao contexto (CAC). O intervalo entre os condicionamentos foi de dois dias nos experimentos do Capítulo I e de três ou quarenta dias nos experimentos do Capítulo II. Cada aprendizado ocorreu em uma caixa de condicionamento com características próprias de formato, odor e iluminação (contexto A ou contexto B), sendo que o primeiro aprendizado ocorreu no contexto A e o segundo no contexto B. Nos experimentos do Capítulo I foram avaliadas no hipocampo dorsal as modificações na excitabilidade neuronal hipocampal induzidas pelo primeiro condicionamento, bem como os receptores envolvidos com a aquisição da memória subsequente e a sobreposição neuronal entre os dois aprendizados. Com a utilização do camundongo transgênico Teg-Tag foi possível identificar os neurônios recrutados para o primeiro aprendizado. Esse animal tem a expressão da proteína fluorescente verde (GFP, do inglês, green fluorescent protein) controlada pela ativação do gene c-fos, que é fisiologicamente transcrito após a atividade neuronal. Dessa forma, os neurônios ativados pelo aprendizado são marcados com GFP. Através da técnica de patch clamp foi observado que os neurônios GFP+ mantiveram a excitabilidade elevada por até dois dias após o treinamento no CAC. Além disso, a identificação dos neurônios recrutados 8 para o aprendizado subsequente foi realizada através da marcação imunofluorescente da proteína Fos, no seu pico de expressão endógena, noventa minutos após o re-treino. Foi observada uma maior sobreposição neuronal (GFP+, Fos+) quando os animais foram retreinados no mesmo contexto dois dias após o primeiro treino. Uma sobreposição intermediária (GFP+, Fos+) foi vista quando os animais tiveram o segundo condicionamento no contexto B, sendo ela significativamente maior do que a sobreposição nos animais não re-treinados. Adicionalmente, foi demonstrado que a aquisição do aprendizado subsequente é mediada por receptores metabotrópicos glutamatérgicos (mGluRs) ao invés de NMDARs. No Capítulo II foi investigado se uma memória remota, adquirida há quarenta dias, ainda seria capaz de influenciar nos mecanismos de plasticidade recrutados para aquisição do aprendizado subsequente. A dinâmica da consolidação sistêmica foi considerada nesses experimentos já que a evocação da memória remota passa a depender de estruturas encefálicas neocorticais, sem recrutar a atividade hipocampal. Apesar da evocação da memória remota não requerer a atividade hipocampal, foi observado que a aquisição do aprendizado subsequente a uma memória remota necessita a atividade de pelo menos uma sub-região do hipocampo (dorsal ou ventral). Complementarmente, os resultados indicaram que, quando o intervalo entre os aprendizados é aumentado (de três para quarenta dias), a formação do aprendizado subsequente, que era independente de NMDARs, volta a depender da plasticidade sináptica mediada por esses receptores no hipocampo (dorsal e ventral). Juntos, nossos resultados sugerem que o primeiro aprendizado causa um aumento da excitabilidade neuronal e modifica a plasticidade sináptica recrutada para o aprendizado subsequente, sendo este último mediado por mGluRs ao invés de NMDARs. Além disso, a metaplasticidade induzida pelo primeiro condicionamento é transiente; quando o intervalo entre as exposições é aumentado, o segundo aprendizado passa a depender novamente da ativação dos NMDARs. / Contextual fear memory formation, like the ones explored in the current work, requires the induction of the synaptic plasticity mediated by the activation of transmembrane receptors that are present in the brain structures as the hippocampus. The ionic flux through the N-methylaspartate- D-aspartate is crucial for activation of the intracellular signaling pathways that will support memory formation. However, these receptors are not necessary when animals had a prior similar learning. In this way, a previous learning can modify the plasticity mechanism that will be recruited to encode a new information, featuring a metaplasticity phenomenon. This phenomenon occurs when animals are pre-exposed to an environment where they will learn an associative learning later or when animals are re-exposed to the same behavioral task with distinct contextual/spatial cues. In the present study, we investigated (i) the synaptic plasticity mechanisms (receptors) and the non-synaptic plasticity mechanisms (neuronal excitability) required for the acquisition of the second learning and (ii) whether a subsequent learning that occurs in a remote time-point is still NMDAR-independent. The animals used in this study (mice or rats) were exposed to two sequential learnings that were performed in the contextual fear conditioning (CFC). The interval between conditionings were two days in the experiments of Chapter I and three or forty days in the experiments of the Chapter II. Each learning was performed in a box with differences on shape, odor and illumination (context A or context B). The first learning occurred in the context A followed by learning on context B. In the experiments of Chapter I it was evaluated the changes in the hippocampal neuronal excitability induced by the first conditioning, the receptors involved with the acquisition of the subsequent memory and the neuronal overlapping between the two sequential learnings. The Teg-Tag transgenic mouse allowed to identify the neurons activated for the first learning experience. This animal has the GFP expression under control of c-fos promoter that is activated by neuronal activity. It was shown by patch clamp that GFP+ neurons are still more excitable two days after learning. Also, the identification of neurons recruited for the subsequent learning was made through immunofluorescent staining of the Fos protein in its peak of endogenous expression, ninety minutes after learning. A greater overlapping (GFP+, Fos+) was observed when animals were retrained in the same context two days after first training. An intermediate overlapping was observed when animals were conditioned in the context B and this expression was significantly higher when compared to animals that were not 10 retrained in either context. Additionally, it was shown that acquisition of the subsequent learning is mediated by metabotropic glutamate receptors (mGluRs) instead of NMDARs In the Chapter II it was investigated whether a remote memory, acquired forty days earlier, is still able to influence in the synaptic plasticity mechanisms recruited for the acquisition of the subsequent learning. Systems consolidation dynamics was considered in these experiments because memory retrieval of a remote memory depends on neocortical brain regions, it not requires hippocampal activity. It was confirmed that hippocampus is not necessary for remote memory retrieval, however at least one longitudinal division of the hippocampus (dorsal or ventral) is essential for learning following a prior remote memory. Moreover, the results indicate that acquisition of the second learning is once again mediated by NMDARs in the hippocampus when the interval between learnings is extended from three to forty days. Altogether, our results suggest that the first learning lead to an increase in the neuronal excitability and modify the synaptic plasticity mechanism recruited for following learning, mGluR are required instead of NMDAR. Furthermore, the metaplasticity induced by first conditioning is transient; the second learning once again requires NMDARs activation when the interval between learnings is longer.

Memória

Aprendizagem

Receptores de N-metil-D-aspartato

Plasticidade neuronal

Hipocampo

Biofísica

Subsequent learning

Metaplasticity

Anterior cingulate cortex

Hippocampus,

MGluR

NMDAR

Modulation of neuronal excitability in the cognitive control network by electrical stimulation

Lehr, Albert

14 May 2020

No description available.

570

dorsal anterior cingulate cortex

dorsolateral prefrontal cortex

Stroop task

instrumental learning

Biologie (PPN619462639)

EXAMINATION OF THE NEURAL CORRELATES UNDERLYING MULTIPLE-EXEMPLAR CATEGORY LEARNING IN BILATERAL RABBIT EYEBLINK CLASSICAL CONDITIONING

Mauldin, Kristin Noel

27 September 2007

No description available.

Psychology, Psychobiology

classical conditioning

categorization

bilateral

rabbits

perception

separable dimensions

multiple-exemplar

anterior cingulate cortex

hippocampus

globus pallidus

rule-based

L’impulsivité en toxicomanie : un regard sur les mécanismes neuronaux de la rechute à la nicotine

Bourque, Josiane

08 1900

Contexte : Jusqu’à 90% des fumeurs qui tentent d’arrêter de fumer vont rechuter dans l’année suivant la date d’arrêt. L’impulsivité, au même titre que le « craving », a démontré être un bon facteur de prédiction de la rechute tabagique. Ainsi, la présente étude visait à évaluer, à l’aide de la neuroimagerie fonctionnelle, l’influence de l’impulsivité sur les mécanismes neuronaux du « craving » de la cigarette. Parmi les régions cérébrales impliquées dans le « craving » de la nicotine, les cortex préfrontal dorsolatéral, orbitofrontal et cingulaire sont d’importantes structures dans les processus de contrôle de soi. Méthodes : 31 fumeurs chroniques ont passé une session de neuroimagerie durant laquelle ils devaient regarder des images appétitives de cigarettes et des images neutres. Ils ont ensuite dû inscrire le « craving » ressenti à la vue des images et répondre à un questionnaire portant sur les traits de personnalité de l’impulsivité (BIS-11). Résultats : Tel qu’attendu, le score d’impulsivité était positivement corrélé au « craving » rapporté par les participants à la vue d’images de cigarettes. Au niveau cérébral, plus les fumeurs présentaient de forts traits d’impulsivité, moins grande était l’activité du cortex cingulaire postérieur (CCP) durant le « craving ». Enfin, l’activité du CCP présentait une connectivité fonctionnelle négative avec l’insula, le cortex préfrontal dorsolatéral et le cortex cingulaire antérieur. Conclusions : Comme le CCP est le siège des processus de mentalisation et de référence à soi, nous suggérons que plus les fumeurs étaient impulsifs, moins ils prenaient conscience de leur état et moins ils en exerçaient un contrôle, donc plus ils ressentaient de forts « cravings ». En poussant plus loin, nos résultats mettent l’accent sur l’aspect identitaire (le soi, les mémoires autobiographiques) et l’aspect d’introspection en toxicomanie : deux avenues à explorer. / Background: 90% of cigarette smokers attempting to quit smoking relapse by one-year following their quit date. Impulsivity, as well as cue-induced cravings, have been shown to be good predictors of relapse for tobacco smoking; however, no study to date has examined their interaction and its neural substrates. The goal of this study was to determine the neural influence of trait impulsivity during functional imaging of cue-induced cigarette cravings. Among the brain regions involved in nicotine craving, the dorsolateral prefrontal cortex, the orbitofrontal as well as the cingulate cortex all play a significant role in self-control processes. Methods: Thirty-one chronic smokers passively viewed appetitive smoking-related and neutral images while being scanned. Participants also reported their level of craving and completed the BIS-11, a measure of trait impulsivity. Results: As hypothesized, we observed a significant positive relationship between impulsivity scores and reported craving. Impulsivity scores were negatively correlated with activity in the posterior cingulate cortex (PCC). The insula, dorsal anterior cingulate cortex and dorsolateral prefrontal cortex presented a negative connectivity with the PCC. Conclusions: Given that the PCC is involved in mentalization and self-relevant processing, it is possible that greater trait impulsivity in smokers is associated to a lower tendency to understand and use one’s mental and physical state to guide behavior. This may weaken their capacity for self-control and consequently, promotes more automatic and stronger cue-elicited smoking urges. Furthermore, our results highlight the important but undervalued role of identity (the self and autobiographic memories) and mindfulness in addiction.

Cortex cingulaire postérieur

Craving

Impulsivité

Cigarette

Corrélats neuronaux

Posterior cingulate cortex

Impulsivity

Cigarette smoking

Neural correlates

L’effet du stress sur la douleur aiguë et chronique

Vachon-Presseau, Étienne

03 1900

Objectif : Cette thèse a pour objectif de mieux comprendre l’effet du stress sur la douleur aiguë et chronique. Devis expérimental : 16 patients souffrant de douleur chronique lombalgique et 18 sujets contrôles ont participé à une étude d’imagerie par résonance magnétique (IRM) et ont collecté des échantillons de salive afin de quantifier les niveaux d’hormone de stress (i.e. cortisol) la journée de l’étude (réponse réactive) et durant les sept jours consécutifs suivants (réponse basale). Étude 1 : Une première étude a examiné le lien entre les niveaux de cortisol basal, le volume de l’hippocampe et l’activité cérébrale évoquée par la douleur thermique chez des patients souffrant de douleur chronique et les sujets contrôles. Les résultats révèlent que les patients souffrant de douleur chronique avaient des niveaux de cortisol plus élevés que ceux des sujets contrôles. Chez ces patients, un niveau élevé de cortisol était associé à un plus petit volume de l'hippocampe et à davantage d’activation dans le gyrus parahippocampique antérieure (une région impliquée dans l'anxiété anticipatoire et l'apprentissage associatif). De plus, une analyse de médiation a montré que le niveau de cortisol basal et la force de la réponse parahippocampique explique statistiquement l’association négative entre le volume de l'hippocampe et l'intensité de la douleur chronique. Ces résultats suggèrent que l’activité endocrinienne plus élevée chez les patients ayant un plus petit hippocampe modifie le fonctionnement du complexe hippocampique et contribue à l’intensité de la douleur chronique. Étude 2 : La deuxième étude a évalué la contribution de la réponse de stress réactif aux différences interindividuelles dans la perception de la douleur aiguë chez des patients souffrant de douleur chronique et chez des sujets normaux. Les deux groupes ont montré des augmentations significatives du niveau de cortisol en réponse à des stimulations nocives administrées dans un contexte d’IRM suggérant ainsi que la réactivité de l’axe hypothalamo-hypophyso-surrénalien est préservée chez les patients lombalgiques. De plus, les individus présentant une réponse hormonale de stress plus forte ont rapporté moins de douleur et ont montré une réduction de l'activation cérébrale dans le noyau accumbens, dans le cortex cingulaire antérieur (CCA), le cortex somatosensoriel primaire, et l'insula postérieure. Des analyses de médiation ont indiqué que la douleur liée à l'activité du CCA explique statistiquement la relation entre la réponse de stress et le désagrément de la douleur rapportée par les participants. Enfin, des analyses complémentaires ont révélé que le stress réduit la connectivité fonctionnelle entre le CCA et le tronc cérébral pendant la douleur aiguë. Ces résultats indiquent que le stress réactif module la douleur et contribue à la variabilité interindividuelle de l'activité cérébrale et la réponse affective à la douleur. Discussion : Conjointement, ces études suggèrent dans un premier temps que la douleur chronique peut être exacerbée par une réponse physiologique inadéquate de l'organisme exposé à un stress récurrent, et en un second temps, que le CCA contribuerait à l'analgésie induite par le stress. Sur le plan conceptuel, ces études renforcent le point de vue prédominant suggérant que la douleur chronique induit des changements dans les systèmes cérébraux régissant les fonctions motivationnelles et affective de la douleur. / Goal : This thesis aimed at better understanding the impact of stress on acute and chronic pain. Experimental design: 16 patients with chronic low back pain pain and 18 control subjects participated in a functional magnetic resonance imaging (fMRI) study and collected saliva samples to quantify the levels of stress hormone (ie cortisol) the day of study (reactive response) and during the following 7 consecutive days (basal response). Study 1: The first study examined the associations between basal levels of cortisol, the hippocampal volumes, and brain activation to thermal stimulations in the low back pain patients and the healthy controls. Results showed that CBP patients have higher levels of cortisol than controls. In these patients, higher cortisol was associated with smaller hippocampal volume and stronger pain-evoked activity in the anterior parahippocampal gyrus (PHG), a region involved in anticipatory-anxiety and associative learning. Importantly, the results revealed that the cortisol levels and phasic pain responses in the PHG of the patients mediated a negative association between the hippocampal volume and the chronic pain intensity. These findings support a stress model of chronic pain suggesting that the higher levels of endocrine activity observed in individuals with a smaller hippocampii induces changes in the function of the hippocampal complex that may contribute to the persistent pain states. Study 2: The second study assessed the magnitude of the acute stress response to the noxious thermal stimulations administered in a MRI environment and tested its possible contribution to individual differences in pain perception. The two groups showed similar significant increases in reactive cortisol across the scanning session when compared to their basal levels, suggesting normal hypothalamic–pituitary–adrenal axis reactivity to painful stressors in chronic back pain patients. Critically, individuals with stronger cortisol responses reported less pain unpleasantness and showed a reduction of BOLD activation in nucleus accumbens at the stimulus onset and in the anterior mid-cingulate cortex (aMCC), the primary somatosensory cortex, and the posterior insula during heat pain. Mediation analyses indicated that pain-related activity in the aMCC mediated the relationship between the reactive cortisol response and the pain unpleasantness reported by the participants. Psychophysiological interaction further revealed that stress reduced functional connectivity between the aMCC and the brainstem during pain. These findings indicate that acute stress responses modulate pain in humans and contribute to individual variability in pain affect and pain-related brain activity. Discussion: Taken together, these studies firstly support recent theories suggesting that chronic pain could be partly maintained by maladaptive physiological responses of the organism facing a recurrent stressor and secondly revealed the neural correlates of stress-induced analgesia. On a conceptual level, these findings are important because they strengthen the predominant view that chronic pain does not disrupt the acute response to stress and the sensory dimension of pain, but rather induces long-term changes in neural systems underlying affective-motivational functions.

Douleur chronique

Stress

IRMf

Hippocampe

Cortex cingulaire antérieur

Chronic pain

fMRI

Hippocampus

Anterior cingulate cortex

Emotional processing of natural visual images in brief exposures and compound stimuli : fMRI and behavioural studies

Shaw, Lynda Joan

January 2009

Can the brain register the emotional valence of brief exposures of complex natural stimuli under conditions of forward and backward masking, and under conditions of attentional competition between foveal and peripheral stimuli? To address this question, three experiments were conducted. The first, a behavioural experiment, measured subjective valence of response (pleasant vs unpleasant) to test the perception of the valence of natural images in brief, masked exposures in a forward and backward masking paradigm. Images were chosen from the International Affective Picture System (IAPS) series. After correction for response bias, responses to the majority of target stimuli were concordant with the IAPS ratings at better than chance, even when the presence of the target was undetected. Using functional magnetic resonance imaging (fMRI), the effects of IAPS valence and stimulus category were objectively measured on nine regions of interest (ROIs) using the same strict temporal restrictions in a similar masking design. Evidence of affective processing close to or below conscious threshold was apparent in some of the ROIs. To further this line of enquiry, a second fMRI experiment mapping the same ROIs and using the same stimuli were presented in a foveal (‘attended’) peripheral (‘to-be-ignored’) paradigm (small image superimposed in the centre of a large image of the same category, but opposite valence) to investigate spatial parameters and limitations of attention. Results are interpreted as showing both valence and category specific effects of ‘to-be-ignored’ images in the periphery. These results are discussed in light of theories of the limitations of attentional capacity and the speed in which we process natural images, providing new evidence of the breadth of variety in the types of affective visual stimuli we are able to process close to the threshold of conscious perception.

612.8

Sensibilisation à la douleur chez un modèle murin de troubles du déficit de l'attention et de l'hyperactivité / Pain sensitivity dysfunction in a mouse model of Attention-Deficit / Hyperactivity Disorder (ADHD)

Bouchatta, Otmane

21 December 2018

L’ADHD (Attention-deficit/hyperactivity disorder) est une maladie du développement caractérisée par l’impulsivité, l’hyperactivité, et l’inattention. Les voies neuronales impliquées dans ces déficits indiquent des dysfonctionnements dans les réseaux catécholaminergiques frontal-sous-corticaux, impliquant l'innervation dopaminergique et noradrénergique. Des études récentes ont mis en évidence une hypersensibilité à la douleur chez les patients ADHD et soulignent une possible comorbidité entre l’ADHD et la douleur. Cependant, les mécanismes et les circuits neuraux impliqués dans ces interactions sont inconnus. Afin de décrypter cette relation, nous avons généré un modèle ADHD de souris à P5 par une lésion néonatale des voies dopaminergiques centrales avec la 6-Hydroxydopamine (6-OHDA) et nous avons démontré la validité du modèle pour mimer le syndrome ADHD. Ensuite, nous avons analysé les comportements douloureux dans le modèle de souris 6-OHDA. Ces derniers présentent un abaissement des seuils de la douleur, ce qui suggère que l’ADHD induit une sensibilisation à la douleur (comorbidité ADHD-Douleur). Nous avons confirmé à l’aide d’enregistrements extracellulaires unitaires, que les modifications de la sensibilité à la douleur des souris 6-OHDA sont dues à une augmentation de l’excitabilité des neurones nociceptifs de la moelle épinière. Cette sensibilisation passe donc par une altération de l’intégration sensorielle dans la moelle épinière via la mise en jeu de contrôles descendants. La connectivité "cortex cingulaire antérieur (ACC) – insula postérieur (PI)" est la clé dans cette comorbidité ADHD-douleur, impliquée dans les fonctions exécutives, les émotions et elle envoie aussi des projections vers la corne dorsale de la moelle épinière. En effet, en combinant les analyses électrophysiologiques, optogénétiques et comportementales, nous avons démontré que les effets de l’ADHD sur la sensibilisation douloureuse passent par la mise en jeu de l’ACC et de la voie ACC – PI. En conclusion, nous montrons que les conditions ADHD induisent une hyperactivation des neurones nociceptifs de la moelle épinière et une hypersensibilité à la douleur. Nous suggérons également que le circuit ACC – PI pourrait déclencher un dysfonctionnement des neurones de la moelle épinière sur la douleur dans les conditions ADHD. / Attention deficit hyperactivity disorder (ADHD) is characterized by the core symptoms of inattention, hyperactivity and impulsivity. Neural pathways underlying these deficits point to deficits within frontal-subcortical catecholaminergic networks, involving dopaminergic and noradrenergic innervation. Hence, impairment of the dopaminergic neurotransmission is a frequent target of ADHD medication. Low-dose psychostimulants, including methylphenidate (MpH) and amphetamines (AMP) are the most widely used treatments of ADHD. Recent evidence pointed to pain hypersensitivity in subjects with ADHD history, and suggests possible comorbidity of ADHD with pain. However, the mechanisms and neural circuits involved in these interactions are unknown. In order to understand this comorbidity, the first objective was to create a good animal model of ADHD. We generated a mouse model at P5 by neonatal disruption of central dopaminergic pathways with 6-Hydroxydopamine (6-OHDA) and we demonstrated the validity of the model to mimic ADHD syndrome. Next, we analyzed nociceptive responses in the 6-OHDA mouse model of ADHD. We found that 6-OHDA mice exhibited a marked decrease of withdrawal thresholds, suggesting that ADHD increase nociceptive sensitivity. Interestingly, by using in vivo electrophysiological recordings, we demonstrated that allodynia and hyperalgesia may be caused by neuronal hyperexcitability in the dorsal spinal cord. Moreover, we found that both lowered wihdrawal threshold and increased activity of nociceptive neurons in ADHD-like mice was not normalized by MpH. We tested the hypothesis that descending controls are responsible for pain alterations through the modulation of spinal circuits. The ‘anterior cingulate cortex (ACC) – posterior insular (PI)’ connectivity is at the cross-road of ADHD and pain, being involved in executive functions and emotions, as well as sending projections to the dorsal horn of the spinal cord. By combining electrophysiological, optogenetic and behavioral analyzes, we have shown that the effects of ADHD on painful sensitization involve the implication of ACC and the ACC - PI pathway. In conclusion, we showed that ADHD conditions induce spinal cord nociceptive neurons hyperactivation and pain hypersensitivity. We also suggest that the ACC - PI circuit may trigger dysfunction of spinal cord neurons in ADHD conditions.

Douleur

ADHD

Dopamine

6-OHDA

Cortex cingulaire antérieur

Insula postérieur

Moelle épinière

Pain

Dopamine

ADHD

6-OHDA

Anterior cingulate cortex

Posterior insular

Spinal cord

Fatores hormonais, cognitivos e neuroanatômicos associados ao comportamento exploratório de ratos submetidos ao teste e reteste no labirinto em cruz elevado / Hormonal, cognitive and neuroanatomical factors associated with the exploratory behavior of rats submitted to the test and retest session in the elevated plus maze

Souza, Lucas Albrechet de

05 August 2010

O protocolo de teste/reteste no labirinto em cruz elevado (LCE) mostra que a experiência prévia no labirinto produz alterações duradouras nas respostas comportamentais de roedores. Nesse contexto, ratos submetidos ao LCE pela primeira vez apresentam um aumento característico na exploração dos braços abertos e uma redução dos comportamentos de avaliação de risco após a administração de drogas ansiolíticas. Na reexposição ao labirinto, porém, essas drogas tornam-se ineficazes em alterar as medidas tradicionais do LCE. Esse fenômeno foi inicialmente observado com o benzodiazepínico clordiazepóxido e referido como one-trial tolerance (tolerância de um ensaio OTT). A proposta do presente estudo é compreender a OTT por meio do exame dos fatores hormonais, cognitivos e neuroanatômicos envolvidos nesse fenômeno. A administração sistêmica do benzodiazepínico midazolam ou de metirapona, um bloqueador da síntese de glicocorticóides, reduziu a frequência dos comportamentos de avaliação de risco e dos níveis plasmáticos de corticosterona quando injetados antes das sessões teste ou reteste. Além disso, a reexposição de ratos ao LCE foi caracterizada por uma avaliação de risco mais proeminente, de acordo com a análise fatorial, e pela ativação de estruturas límbicas envolvidas com aspectos cognitivos do medo, como a região ventral do córtex pré-frontal medial (CPFm) e a amígdala, mostrada por meio da distribuição da proteína Fos. Midazolam administrado antes da primeira exposição ao LCE produziu uma redução significativa do número de neurônios Fos-positivos no córtex cingulado anterior, área 1 (Cg1) e nos núcleos anterior e pré-mamilar dorsal do hipotálamo. Por outro lado, midazolam causou uma redução no número de neurônios Fos-positivos no CPFm, amígdala, núcleo dorsomedial do hipotálamo e núcleos da rafe em ratos reexpostos ao LCE. Cg1 foi a única estrutura-alvo do benzodiazepínico em ambas as sessões. Resultados comportamentais similares aos produzidos pelo tratamento sistêmico foram obtidos com infusões de midazolam intra-Cg1. Esses resultados apontam para um papel crucial dos comportamentos de avaliação de risco no desenvolvimento da OTT e indicam o Cg1 como um importante sítio de ação ansiolítica dos benzodiazepínicos em roedores. / The elevated plus maze (EPM) test/retest protocol has shown that prior experience to the maze produces enduring changes in behavioral responses of rodents. In this context, rats submitted for the first time to the EPM display a characteristic increase in open arm exploration and reduced risk assessment behaviors after the administration of anxiolytic drugs. Upon re-exposure to the maze, however, these drugs become unable to change the traditional measures of the EPM. This phenomenon was initially observed with the benzodiazepine chlordiazepoxide and referred to as one-trial tolerance (OTT). The purpose of the present study is to understand the OTT through the exam of the hormonal, cognitive and neuroanatomical factors involved in this phenomenon. The systemic administration of the benzodiazepine midazolam or metyrapone, a glucocorticoids synthesis blocker, reduced the frequency of risk assessment behaviors and the corticosterone levels when injected before the test or retest sessions. Moreover, the re-exposure of rats to the EPM was characterized by more prominent risk assessment behaviors, according to the factor analysis, and by activation of limbic structures involved with cognitive aspects of fear, such as the ventral regions of the medial prefrontal cortex (mPFC) and amygdala, as shown through the distribution of the Fos protein. Midazolam injected before the first exposure to the EPM produced a significant decrease in the number of Fos-positive neurons in the anterior cingulate cortex, area 1 (Cg1), anterior and dorsal premammillary nuclei of hypothalamus. On the other hand, midazolam caused a decrease in the number of Fos-positive neurons in the mPFC, amygdala, dorsomedial nucleus of hypothalamus and raphe nuclei in rats re-exposed to the EPM. Cg1 was the only structure targeted by the benzodiazepine in both sessions. Behavioral results similar to those produced by systemic treatment were obtained with intra-Cg1 infusions of midazolam. These results point to a crucial role of the risk assessment behaviors in the development of the OTT and indicate the Cg1 as an important locus for the anxiolytic-like action of benzodiazepines in rodents.

anterior cingulate cortex

benzodiazepines

benzodiazepínicos

córtex cingulado anterior

corticosterona

corticosterone

elevated plus maze

Fos protein

labirinto em cruz elevado

proteína Fos

retest session

sessão reteste