Global ETD Search

21	Le cannabis, le tabac et le changement d’adiposité chez les jeunes hommes et femmes : une étude longitudinale 2005-2012 Dubé, Emily 04 1900 (has links) Exposé de la situation : Des études menées sur les animaux démontrent que le système endocannabinoide est important dans le maintien de l’homéostasie de l’énergie et que les effets de sa modulation sont différents selon le sexe et l’exposition à la nicotine. Deux études longitudinales ont étudié l’association entre l’usage du cannabis (UC) et le changement de poids et ont obtenus des résultats contradictoires. L’objectif de ce mémoire est de décrire la modification de l’association entre l’UC et le changement de poids par la cigarette chez les jeunes hommes et femmes. Méthodes : Des donnés de 271 hommes et 319 femmes ont été obtenues dans le cadre de l’étude NICO, une cohorte prospective (1999-2013). L’indice de masse corporelle (IMC) et la circonférence de taille (CT) ont été mesurés à l’âge de 17 et 25 ans. L’UC dans la dernière année et de cigarette dans les derniers trois mois ont été auto-rapportées à 21 ans. Les associations entre l’UC et le changement d’IMC et de CT ont été modélisées dans une régression polynomiale stratifiée par sexe avec ajustement pour l’activité physique, la sédentarité et la consommation d’alcool. Résultats : Uniquement, chez les hommes, l’interaction de l’UC et cigarettes était statistiquement significative dans le model de changement IMC (p=0.004) et celui de changement de CT (p=0.043). L’UC était associé au changement d’adiposité dans une association en forme de U chez les homes non-fumeurs et chez les femmes, et dans une association en forme de U-inversé chez les hommes fumeurs. Conclusion : La cigarette semble modifier l’effet du cannabis sur le changement d’IMC et CT chez les hommes, mais pas chez les femmes. / Background: Animal studies suggest that the endocannabinoid system is a regulator of energy homeostasis, whose effects are modified by sex and nicotine. Two studies in humans have examined the association between cannabis use and change in adiposity, and obtained conflicting results. This thesis aimed to determine if the association between cannabis use and change in adiposity is modified by cigarette smoking in young adults. Methods: Data were available for 271 males and 319 females participating in the Nicotine Dependence In Teens study, a prospective cohort investigation (1999-2013). Body mass index (BMI) and waist circumference (WC) were measured at ages 17 and 25 years. Self-report data on past-year cannabis use and past three-month cigarette smoking were collected at age 21 years. Modification of the association between cannabis use and change in adiposity by cigarette smoking was tested separately in each sex, in polynomial linear regression models controlling for physical activity and sedentary behavior in both sexes, and alcohol use in males only. Results: In males only, the interaction between cannabis use and cigarette smoking was statistically significant in both the model for change in BMI (p=0.004) and the model for change in WC (p=0.043). Cannabis use was associated with change in adiposity in a U-shaped form in females and in non smoking males, and in an inverted U-shaped association in males who smoked more than 10 cigarettes per day. Conclusion: Smoking cigarettes appears to attenuate the association between cannabis use and change in adiposity in young men, but not in young women. Système endocannabinoide Cannabis Cigarette Obésité Modification d'effet Endocannabinoid system Cannabis Cigarette Obesity Effect modification
22	Le cannabis, le tabac et le changement d’adiposité chez les jeunes hommes et femmes : une étude longitudinale 2005-2012 Dubé, Emily 04 1900 (has links) Exposé de la situation : Des études menées sur les animaux démontrent que le système endocannabinoide est important dans le maintien de l’homéostasie de l’énergie et que les effets de sa modulation sont différents selon le sexe et l’exposition à la nicotine. Deux études longitudinales ont étudié l’association entre l’usage du cannabis (UC) et le changement de poids et ont obtenus des résultats contradictoires. L’objectif de ce mémoire est de décrire la modification de l’association entre l’UC et le changement de poids par la cigarette chez les jeunes hommes et femmes. Méthodes : Des donnés de 271 hommes et 319 femmes ont été obtenues dans le cadre de l’étude NICO, une cohorte prospective (1999-2013). L’indice de masse corporelle (IMC) et la circonférence de taille (CT) ont été mesurés à l’âge de 17 et 25 ans. L’UC dans la dernière année et de cigarette dans les derniers trois mois ont été auto-rapportées à 21 ans. Les associations entre l’UC et le changement d’IMC et de CT ont été modélisées dans une régression polynomiale stratifiée par sexe avec ajustement pour l’activité physique, la sédentarité et la consommation d’alcool. Résultats : Uniquement, chez les hommes, l’interaction de l’UC et cigarettes était statistiquement significative dans le model de changement IMC (p=0.004) et celui de changement de CT (p=0.043). L’UC était associé au changement d’adiposité dans une association en forme de U chez les homes non-fumeurs et chez les femmes, et dans une association en forme de U-inversé chez les hommes fumeurs. Conclusion : La cigarette semble modifier l’effet du cannabis sur le changement d’IMC et CT chez les hommes, mais pas chez les femmes. / Background: Animal studies suggest that the endocannabinoid system is a regulator of energy homeostasis, whose effects are modified by sex and nicotine. Two studies in humans have examined the association between cannabis use and change in adiposity, and obtained conflicting results. This thesis aimed to determine if the association between cannabis use and change in adiposity is modified by cigarette smoking in young adults. Methods: Data were available for 271 males and 319 females participating in the Nicotine Dependence In Teens study, a prospective cohort investigation (1999-2013). Body mass index (BMI) and waist circumference (WC) were measured at ages 17 and 25 years. Self-report data on past-year cannabis use and past three-month cigarette smoking were collected at age 21 years. Modification of the association between cannabis use and change in adiposity by cigarette smoking was tested separately in each sex, in polynomial linear regression models controlling for physical activity and sedentary behavior in both sexes, and alcohol use in males only. Results: In males only, the interaction between cannabis use and cigarette smoking was statistically significant in both the model for change in BMI (p=0.004) and the model for change in WC (p=0.043). Cannabis use was associated with change in adiposity in a U-shaped form in females and in non smoking males, and in an inverted U-shaped association in males who smoked more than 10 cigarettes per day. Conclusion: Smoking cigarettes appears to attenuate the association between cannabis use and change in adiposity in young men, but not in young women. Système endocannabinoide Cannabis Cigarette Obésité Modification d'effet Endocannabinoid system Cannabis Cigarette Obesity Effect modification
23	The CB1R system within the nucleus accumbens of vervet monkeys Kucera, Ryan 04 1900 (has links) No description available. CB1R NAPE-PLD FAAH endocannabinoid system nucleus accumbens primate immunohistochemistry immunofluorescence système endocannabinoïde noyau accumbens singe immunohistochimie
24	Recherche des mécanismes impliqués dans la modulation de la vulnérabilité à la cocaïne par les conditions environnementales / Mechanism involved in the modulation of cocaine vulnerability by environmental manipulation Lafragette, Audrey 08 November 2016 (has links) Une influence des conditions de vie sur le phénomène de dépendance a été observée chez l'Homme et modélisée chez l'animal. Ainsi chez les rongeurs, l'exposition à un environnement enrichi (EE) réduit le risque d'addiction, alors qu'un stress l'augmente. Les mécanismes responsables de ces influences environnementales sur la dépendance ont été l'objet de mes recherches. D'une part, nous avons montré que des injections chroniques de cocaïne augmentent l'expression du facteur de transcription ΔFosB dans les cellules striatales exprimant le récepteur dopaminergique D1R (D1R+), alors que l'EE seul l'augmente spécifiquement dans les cellules D1R(-). De façon intéressante, ces effets sont abolis lorsque la cocaïne est administrée à des souris exposées à l'EE. Ces résultats suggèrent que la prévention de la sensibilisation comportementale par l'EE corrèle avec une accumulation modifiée de ΔFosB. D'autre part, le laboratoire avait montré que le passage d'un EE à un environnement standard augmentait la vulnérabilité à la cocaïne. Toujours dans le but de découvrir les mécanismes impliqués, nous nous sommes intéressés au système endocannabinoïde (ECS), un régulateur du stress et aux processus épigénétiques. Nous avons observé que ce switch environnemental modulait l'expression de différents acteurs de l'ECS, en particulier le récepteur CB1 dans l'amygdale, et aussi celle de la protéine régulatrice de la transcription MeCP2 (Methyl CpG-binding-Protein-2) dans le noyau accumbens. Dans son ensemble, ce travail a permis d'identifier des mécanismes moléculaires, régulés par différentes manipulations environnementales, et pouvant participer à la vulnérabilité aux drogues d'abus. / Influences of life conditions on the phenomenon of addiction has been observed in Human and modeled in animals. Indeed, in rodents, exposure to enriched environment (EE) reduces the risk of addiction, whereas stress increases it. The mechanisms responsible for these environmental influences on addiction have been the object of my thesis. On one hand, we have shown that chronic injections of cocaine increase the expression of the transcription factor ΔFosB in striatal cells expressing the dopaminergic receptor D1 (D1R(+) cells) whereas EE by itself increases it specifically in D1R(-) cells. Interestingly, these effects were abolished when cocaine is administrated to mice exposed to EE. These results suggest that the prevention of the behavioral sensitization induced by EE correlates with a modified accumulation of ΔFosB. On the other hand, our laboratory has shown that switching mice from EE to a standard environment increases the vulnerability to cocaine. In order to uncover the mechanisms underlying this potentiation, we studied the endocannabinoid system, involved in stress regulation and in epigenetic processes. We have observed that the environmental switch modulates the expression of different actors of the endocannabinoid system, especially the CB1 receptor in the amygdala, and of MeCP2 (Methyl CpG-binding-Protein-2), a protein involved in the control of transcription in the nucleus accumbens. Altogether, this work allowed us to highlight molecular mechanisms that are regulated by environmental manipulations and that could participate to the individual vulnerability to drugs of abuse. Sensibilisation comportementale Cocaïne Environnement enrichi Stress ∆FosB Système des endocannabinoïdes MeCP2 Behavioral sensitization Cocaine Enriched environment Stress ∆FosB Endocannabinoid system MeCP2 616.8
25	Role kanabinoidního systému v neurobiologii a léčbě psychotických onemocnění - experimentální studie v animálních modelech psychóz / The role of cannabinoid system in neurobiology and therapy of psychotic disorders - an experimental study in animal models of psychosis Nováková, Pavlína January 2014 (has links) Throughout the scientific world the topic of cannabis usage and its link with psychosis seems to be discussed intensively. Considering the fact that the Czech Republic is a country with one of the highest prevalence of cannabis usage in the world it becomes a sensitive issue even in our circumstances. In the theoretical part of the work we attempted to review current knowledge of a link between cannabinoid system, canabis usage and psychosis and to point out possible future therapeutic potential of cannabinoids in the treatment of psychotic diseases. In the practical part of the work we focused on verification of propsychotic features of THC in animal model with particular attention to validation of acute subcutaneous admonistration of this drug as a novel cannabinoid model of psychosis. At the same time we tried to elucidate antipsychotic effect of CBD in this model. We tested these hypotheses in two behavioral tests (open field test, PPI ASR) and electrophysiologically (quantitative EEG). The whole analysis is enriched with pharmacokinetic data from subcutanneous and oral administration of cannabinoids. Powered by TCPDF (www.tcpdf.org)
26	The endocannabinoid system and autistic behavior in the Fmr1- KO mouse Lenz, Frederike 11 July 2017 (has links) Background: Background of this work was the investigation of the endocannabinoid system (ECS) in the Fmr1 knock- out (KO) mouse. The Fmr1- KO mouse is a mouse model for fragile X syndrome (FXS). FXS is the leading monogenic cause for autism spectrum disorders (ASD) in humans. The Fmr1- KO mouse displays autistic behavior such as an impaired social interaction, repetitive behavior, cognitive deficits, increased anxiety and aggressiveness. Alterations of the ECS have been suggested to play a key role in the etiopathology of a variety of neuropsychiatric disorders. Until today, little has been described about the involvement of the ECS in ASD. Interrogation: 1. Evaluating the manifestation of typical cannabinoid- induced effects in the Fmr1- KO mouse 2. Investigating the influenceability of autistic symptoms with THC treatment in the Fmr1- KO mouse 3. Analyzing the signaling cascade of the stimulated and unstimulated ECS in different brain regions of the Fmr1- KO mouse Material and Methods: Experiments were carried out on adult (12±1 weeks old) male Fmr1- KO and Fmr1- wild- type (WT) mice from the C57BL/6J- (B6)- background. N= 15 mice received THC (10mg/kg bodyweight) and N= 16 received WIN55,212 (3mg/kg bodyweight). 30min after injection, the body temperature was measured and the distance animals moved in an open field during 15min was recorded (locomotion). Then, animals were placed with their forepaws onto a horizontally fixed bar and the time remaining in this position (catalepsy) was measured. Finally animals were placed on a preheated plate and the temperature at which a pain stimulus occurred was determined (testing analgesia). All 4 experiments are called tetrad experiment. Afterwards changes in body temperature, locomotion, catalepsy and analgesia of the animals was evaluated. To explore long-term effects of THC after the tetrad, N= 15 animals were tested in a social interaction test with a female contact mouse, 10 and 20 days after THC treatment. Therefore, the tested mouse and the contact mouse were placed together into a cage and the time mice spent in social interaction (nose, body and anogential sniffing, allogrooming and body contact) was manually quantified during 6min of recorded testing time. Another group of N= 19 received a premedication of rimonabant (Cannabinoid- receptor 1 (CB1) antagonist, 3mg/kg bodyweight) 30min prior to THC treatment. Rimonabant prevents THC from binding to CB1 and therefore allows the assessment of the involvement of CB1 in mediating social behavior. Furthermore the suggestibility of context-dependent fear conditioning with THC treatment has been tested on N= 13 mice. Animals were placed into a conditioning chamber that delivered 6 short electric shocks with a 30sec pause to their paws (conditioning phase). Immediately afterwards mice received THC or placebo. 24h later contextdependent fear was evaluated by quantification of the time mice spent freezing in the conditioning-chamber (fear) without receiving foot shocks. Intraneuronal signaling of the ECS was analyzed with N= 29 animals using western blots. Quantities of phosphorylated (“activated”) protein kinases (ERK, AKT and S6) from different brain homogenates (hippocampus, striatum, cortex and cerebellum) were therefore measured after THC or placebo injection (30 minutes prior to sacrificing). Results: Cannabinoids induced hypothermia, hypolocomotion, analgesia and catalepsy in WTmice. These effects were significantly less detectable in Fmr1- KO mice. Effects of both cannabinoids, THC and WIN55,212, were comparable with a slightly greater but not significant efficiency of THC. THC treated WT- mice exhibited further reduced social interaction 10 days after treatment, an effect that was partially prevented by premedication with rimonabant. THC increased social interaction in Fmr1- KO mice comparable to the level of untreated WT- mice. THC had no effect on behavior of WT- mice in context-dependent fear conditioning. Fmr1- KO mice showed significant less contextdependent fear conditioning compared to WT- mice. THC facilitated the recognition of an anxiety-correlated context in Fmr1- KO mice comparable to untreated WT- mice. In western blots significant changes in the THC- induced signaling cascade were detectable and depending on genotype, brain-region and analyzed protein-kinase. In the hippocampus there were no changes in untreated Fmr1- KO mice compared to WT- mice. THC had no effect on activation of protein-kinases in WT- and Fmr1- KO mice. In the striatum there were no changes in untreated Fmr1- KO mice compared to WTmice. THC significantly increased activity of ERK, AKT and S6 in WT-mice and not in Fmr1- KO mice. In the cortex of untreated Fmr1- KO mice AKT showed a significantly increased activity compared to WT- mice. THC significantly increased AKT activity in WT- mice without having an effect on KO- mice. In the cerebellum there were no changes in untreated Fmr1- KO mice compared to WT- mice. THC significantly increased ERK- activity in Fmr1- KO mice but had no effect on protein kinase activity in WT- mice. Conclusion: We observed physiological cannabinoid effects in WT- mice after treatment with THC and WIN55,212. These effects are significantly attenuated in Fmr1- KO mice. This may be interpreted as a desensitization of the ECS in the Fmr1- KO mouse. At the same time it was demonstrated that THC has the potential to improve context dependent memory consolidation and to increase social interaction in the Fmr1- KO mouse. In particular the influence of THC on impaired social interaction should be a target of further investigations to find possible therapeutic options for this typical symptom of Autism. Underlying molecular mechanisms remain unclear and the analysis of THC stimulated intraneuronal signaling gave no clear indication of possible molecular alterations in the Fmr1- KO mouse. info:eu-repo/classification/ddc/610 ddc:610
27	Les impacts du récepteur GPR55 sur les fonctions visuelles Bachand, Ismaël 12 1900 (has links) Il est connu que le cannabis, par son action sur le système endocannabinoïde, affecte de multiples paramètres de la vision. Les fonctions de GPR55, un récepteur associé au système endocannabinoïde, ont moins été étudiées que celles des récepteurs cannabinoïdes les plus importants, CB1 et CB2. Nous savons cependant que GPR55 est présent dans la rétine de la souris et qu’il module la croissance et le guidage axonal des cellules ganglionnaires rétiniennes durant le développement. Le but de cette étude est d’étudier les effets de GPR55 sur la vision en utilisant un modèle de souris avec une délétion du gène Gpr55. Des électrorétinographies (ERG) plein champ scotopique et photopique ont été effectuées dans le but d’étudier le rôle du récepteur sur les fonctions rétiniennes. Nous avons trouvé que les souris Gpr55-/- ont, en ERG scotopique, une amplitude réduite de l’onde-b et des potentiels oscillatoires qui ont aussi une latence plus longue. Chez ces animaux, l’onde-a photopique a aussi une amplitude plus basse. Par la suite, pour vérifier les conséquences des déficits de fonction rétinienne sur les fonctions visuelles, le modèle de réflexe optomoteur a été utilisé sur des souris knock-out ou avec des injections systémiques d’un antagoniste et d’un agoniste de GPR55. L’absence de GPR55 retarde le développement de l’acuité visuelle, mais la délétion de Gpr55 ou l’action pharmacologique sur le récepteur ne change pas l’acuité visuelle chez les adultes. La délétion de Gpr55 et l’administration d’un antagoniste du récepteur diminuent la sensibilité au contraste. Ces observations suggèrent que GPR55 peut modifier l'activité des cônes, des cellules bipolaires et des cellules de la rétine interne avec des conséquences comportementales. / The observations on how cannabis affects multiple properties of vision have fostered the interest in the study of the functions of cannabinoid receptors CB1 and CB2 in the visual system. However, other non-classical cannabinoid receptors are thought to be involved in mediating the actions of cannabinoid ligands in the eye. One of these candidate receptors is GPR55, a receptor that modulates the growth and axonal guidance of retinal ganglion cells during development in mice. The purpose of this study was to investigate the effects of the deletion of the Gpr55 gene and the pharmacological modulation of GPR55 on retinal function and visual behavior. Full-field scotopic and photopic electroretinography (ERG) were used to functionally assess the state of the retina. Recordings obtained from Gpr55-/- mice revealed a diminution of the scotopic b-wave and the photopic a-wave responses. These animals also had reduced and delayed oscillatory potentials. The optomotor reflex method was used to evaluate the consequences of Gpr55 deletion on visual acuity and contrast sensitivity. The absence of GPR55 delayed the developmental trajectory of visual acuity in Gpr55 knockout mice without affecting the maximum visual acuity reached in adulthood. Pharmacological manipulation of GPR55 in adult wild-type mice did not alter visual acuity. Both the deletion of Gpr55 and the administration of a receptor antagonist decreased contrast sensitivity while an agonist of GPR55 increased contrast sensitivity. These observations suggest that GPR55 can modify the activity of cones, bipolar cells, and cells in the inner retina with behavioral consequences. Système endocannabinoïde GPR55 Réflexe optomoteur Acuité visuelle ERG Sensibilité au contraste Souris Endocannabinoid system Optomotor response Visual acuity Contrast sensitivity Mouse
28	Contribution du récepteur GPR55 dans la formation des contacts synaptiques Lacomme, Lucile 08 1900 (has links) La synaptogenèse est un processus biologique aboutissant à la mise en place d’un réseau de connexions neuronales, par la genèse de synapses. La mise en place de ce réseau de connexions est essentielle au développement du système nerveux central (SNC) et de ses fonctions. Tout comme les autres étapes du développement du SNC, la synaptogenèse est régulée par une multitude de signaux cellulaires, et le système endocannabinoïde en fait partie. Les dérivés du cannabis tel que le Δ-9-tétrahydrocannabinol (THC) et le cannabidiol (CBD) sont capables de traverser la barrière placentaire et de se retrouver dans le lait maternel. Par leur interaction avec le SNC, entre autres, ces phytocannabinoïdes sont capables d’influencer son développement. Le récepteur couplé à une protéine G 55 (GPR55) est catégorisé comme récepteur atypique du système endocannabinoïde, et il est capable d’être antagonisé par le CBD. Il a été prouvé par de précédentes études qu’il est lui aussi impliqué dans le développement du SNC, notamment dans le guidage et la croissance des axones durant les périodes fœtale et périnatale. Dans la littérature, il est souvent rapporté que les signaux impliqués dans le guidage axonal le sont aussi dans la synaptogenèse. C’est pourquoi le présent mémoire vise à examiner le rôle du récepteur GPR55 et l’effet de sa modulation par le CBD dans la formation de contacts synaptiques. Le modèle utilisé pour cette étude est la culture de neurones corticaux issus d’embryons de souris de génotypes gpr55+/+ et gpr55-/-. Pour comprendre le rôle physiologique de GPR55 dans la synaptogenèse nous avons étudié l’effet de la délétion du récepteur GPR55 à deux temps, Day In Vitro (DIV) 9-10 au début de la synaptogenèse, et à DIV14-15 un temps plus avancé. Ensuite pour comprendre comment le CBD est capable d’influencer la formation de contacts synaptiques de manière dépendante ou non de GPR55, les cultures de neurones corticaux de chaque génotype ont été exposées à DIV9 pour 24h à différentes concentrations du CBD (0,3uM ou 0,6uM ou 1uM). Les effets sur la formation de contacts synaptiques ont été étudiés en immunocytochimie, en immunobuvardage et en électrophysiologie de type patch clamp. Les résultats montrent que la délétion de GPR55 entraine à DIV14-15 une augmentation de la densité des contacts synaptiques, mais une réduction de leur aire et de l’expression de la synaptophysine, en affectant l’activité synaptique. L’exposition au CBD 0,6uM et 1uM entrainent de manière dépendante ou partiellement dépendante à GPR55, une augmentation de la densité des contacts synaptiques sans affecter leur aire, l’expression de protéines synaptiques ainsi que l’activité synaptique. La fréquence de décharge des neurones est diminuée de manière dépendante de GPR55 après l’exposition au CBD 1uM. Ces résultats suggèrent que GPR55 pourrait être un signal important pour l’arrêt de la formation de nouvelles synapses et un signal d’induction pour la maturation des synapses existantes. / Synaptogenesis is a biological process that leads to the establishment of a network of neuronal connections through the genesis of synapses. The formation of this network of connections is essential for the development of the central nervous system (CNS) and its functions. Like other stages of CNS development, synaptogenesis is regulated by multiple cellular signals, and the endocannabinoid system is part of it. Cannabis derivatives such as Δ-9-tetrahydrocannabinol (THC) and cannabidiol (CBD) can cross the placental barrier and be present in breast milk. Through their interaction with the endocannabinoid system, among others, these phytocannabinoids can influence CNS development. The G protein-coupled receptor 55 (GPR55) is categorized as an atypical receptor of the endocannabinoid system, and it can be antagonized by CBD. Previous studies have shown that GPR55 is also involved in CNS development, particularly in the guidance and growth of axons during fetal and perinatal periods. It is often reported in the literature that the signals involved in axonal guidance are also involved in synaptogenesis. Therefore, this study investigates the role of the GPR55 receptor and the effect of its modulation by CBD in the formation of synaptic contacts. The model used for this study consists of cortical neuron cultures from mouse embryos gpr55+/+ and gpr55-/- . To understand the physiological role of GPR55 in synaptogenesis, we studied the effect of gpr55 deletion at two-time points: Day In Vitro (DIV) 9- 10 at the beginning of synaptogenesis, and DIV14-15 at a later time point. Then, to understand how CBD can influence the formation of synaptic contacts, whether dependent or independent of GPR55, cortical neuron cultures of each genotype were exposed to different concentrations of CBD (0.3µM or 0.6µM or 1µM) at DIV9 for 24 hours. The effects on the formation of synaptic contacts were studied through immunocytochemistry, western blot, and patch clamp electrophysiology. The results show that gpr55 deletion leads to an increase in synaptic contact density at DIV14-15 but a reduction in their area and synaptophysin expression, by affecting synaptic activity. Exposure to 0.6µM and 1µM CBD results in a GPR55-dependent or partially dependent increase in synaptic contact density without affecting their area, expression of synaptic proteins, and synaptic activity. The firing frequency of neurons is decreased in a GPR55- dependent manner after exposure to 1µM CBD. These results suggest that GPR55 could be an important signal for stopping the formation of new synapses and an induction signal for the maturation of existing synapses. synaptogenèse système endocannabinoïde GPR55 cannabidiol neurones corticaux in vitro Central nervous system development Synaptogenesis Endocannabinoid system Cortical neurons in vitro
29	Impact d’une déficience en acides gras polyinsaturés (AGPI) de la série n-3 sur les comportements émotionnels et la plasticité cérébrale chez la souris / Impact of nutritional n-3 polyunsaturated fatty acids deficiency on emotional behavior and cerebral plasticity in mice Larrieu, Thomas 07 December 2012 (has links) Un faible apport alimentaire en acides gras polyinsaturés (AGPI) de la série n-3 a été associé à la prévalence des troubles de l'humeur chez l’Homme. Chez les rongeurs, les approches nutritionnelles visant à modéliser une alimentation pauvre en AGPI n-3 ont largement été développées au siècle dernier. En effet, un régime alimentaire carencé en AGPI n-3 sur une ou plusieurs générations induit chez le rongeur des altérations des comportements émotionnels tels que des comportements de type dépressif ou anxieux. Nous avons montré au laboratoire Nutrineuro que des souris nourries avec un régime déficient en AGPI n-3 présentent des niveaux d’AGPI n-3, en particulier l'acide docosahexaénoïque (DHA, un AGPI n-3) plus faible dans le cortex préfrontal (PFC) et dans le noyau accumbens (NAc) par rapport aux souris contrôle. De plus, nous avons pu mettre en évidence qu’une alimentation déficiente en AGPI n-3 est capable de moduler la plasticité synaptique dépendante du système endocannabinoïde (eCB). De fait, la réduction de DHA dans le CPF et le NAc est accompagnée d'une altération de la dépression à long terme (LTD-eCB) et des voies de signalisation dépendantes du système eCB au niveau du CPF (Lafourcade et al., 2011 ; Larrieu et al, 2012). Nos données indiquent que ces altérations sont dues à un découplage entre le récepteur cannabinoïde 1 (CB1R) et la protéine Gi/o. De plus, les souris déficientes en AGPI n-3 présentent des déficits comportementaux dans plusieurs tests évaluant les comportements émotionnels. Afin de mieux comprendre les mécanismes qui sous-tendent la diminution du DHA dans le CPF et les altérations des comportements émotionnels, nous avons étudié la morphologie neuronale dans le CPF et l’axe hypothalamo-hypophysaire (HPA) chez les souris déficientes en AGPI n-3. Nous avons montré que le régime alimentaire déficient en AGPI n-3 induit une atrophie de l’arborisation dendritique dans les neurones pyramidaux du CPF. L'atrophie dendritique est semblable à celle mesurée chez les souris soumises au régime équilibré en AGPI n-3 et soumises à un stress chronique de défaite sociale (CSDS). Aucun effet additionnel du CSDS sur la morphologie neuronale et le comportement émotionnel n’a été observé chez les souris déficientes en AGPI n-3. Nous avons ensuite étudié le rôle de l’axe HPA dans le développement des altérations comportementales et neurobiologiques chez les souris déficientes en AGPI n-3. Ces souris présentent une diminution de l'expression des récepteurs des glucocorticoïdes (GR) dans le CPF associée à une augmentation des taux circulants de corticostérone. Dans leur ensemble, nos résultats montrent qu’un faible apport alimentaire en AGPI n-3 peut modifier la plasticité synaptique dépendante du système eCB ainsi que l’arborisation dendritique des neurones du CPF. Nous avons également pu montrer que l’élévation des niveaux de corticostérone était impliquée dans l’altération des comportements émotionnels observée chez des souris nourries avec un régime déficient en AGPI n-3. / Low dietary intake of n-3 polyunsaturated fatty acids (PUFAs) has been associated with the prevalence of mood disorders in humans. In rodents, nutritional approaches aiming at modeling poor dietary n-3 PUFAs intake have been extensively developed in the last century. As a result, one- or multi-generation dietary n-3 deficiency induces depressive and anxiety-like behaviors. We have shown in the Nutrineuro lab that mice fed with a diet deficient in n-3 PUFAs exhibit decreased n-3 PUFAs levels, especially docosahexaenoic acid (DHA, a n-3 PUFA) levels in the prefrontal cortex (PFC) and in the nucleus accumbens (NAc). We showed that dietary n-3 PUFA is able to modulate endocannabinoid (eCB) dependent plasticity since DHA reduction in PFC and NAc is accompanied with eCB dependent long term depression (eCB-LTD) and eCB signaling impairment in the PFC (Lafourcade et al., 2011; Larrieu et al., 2012). Our data indicate that LTD alteration results from region-specific uncoupling of CB1 receptor from its effector Gi/o protein. In addition, n-3 deficient mice display behavioral deficits in several tests measuring emotional behavior. To further understand the mechanisms underlying DHA decrease in the PFC and emotional behavior alteration, we thoroughly investigated neuronal morphology and hypothalamic-pituitary-adrenal (HPA) axis in n-3 deficient mice. We showed that n-3 deficient diet induced dendritic atrophy in pyramidal neurons within the PFC. The dendritic atrophy was comparable to the one measured in control diet mice submitted to chronic social defeat stress (CSDS). No additional effect of CSDS on both neuronal morphology and emotional behavior was measured in n-3 deficient mice. We therefore investigated the role of the HPA axis deregulation in the development of behavioral and neurobiological alterations of n-3 deficient mice. We found a decreased expression of glucocorticoid receptor (GR) in the PFC of n-3 deficient mice together with increased circulating levels of corticosterone. Collectively, we unraveled one crucial mechanism underlying n-3 deficiency-induced alterations. Our results show that low dietary n-3 PUFAs can alter eCB-dependent plasticity and neuronal dendritic atrophy within the PFC leading to emotional behavior impairment. Importantly, we further demonstrated that corticosterone elevation in n-3 deficient mice was involved in the n-3 deficiency-induced emotional behavior and dendritic arborization alterations. Oméga-3 Comportements émotionnels Souris Stress de défaite sociale Axe hypothalamo-hypophysaire Corticostérone Système endocannabinoïde CB1 Omega-3 Emotional behaviors Mice Chronic social defeat stress Hypothalamic-pituitary-adrenal axis Corticosterone Endocannabinoid system CB1
30	Envolvimento dos sistemas glutamatérgico, endocanabinoide e endovaniloide do córtex pré-frontal medial no modelo de dor neuropática e na comorbidade dor crônica e ansiedade/pânico / Involvement of the glutamatergic, endocannabinoid and endovanyloid systems of the medial prefrontal cortex in the neuropathic pain model and chronic pain and anxiety/panic comorbidities Medeiros, Priscila de 05 December 2017 (has links) A dor crônica (DC) é um problema global de saúde. A incidência da DC no mundo oscila entre 7 e 40% da população e, como consequência da mesma, cerca de 50 a 60% dos que sofrem dela ficam parcial ou totalmente incapacitados, de maneira transitória ou permanente, comprometendo de modo significativo a qualidade de vida. Sabe-se que a divisão pré-límbica (PrL) do córtex pré-frontal medial (CPFM) é uma região importante na elaboração da dor e de seus aspectos cognitivos e emocionais. Há evidências que a DC de origem neuropática (DN) é capaz de provocar mudanças morfológicas, resultando em uma reorganização nas redes neurais do CPFM, e existe alta relação de comorbidade entre ansiedade e DC. Sendo assim, necessita-se de estudos que forneçam aprimoramento dos modelos animais em DC para que, assim, investiguem-se as bases neuroanatômicas, neurofisiológicas e psicofarmacológicas da DN e a participação de áreas corticais na gênese e manutenção da dor. Para isso, o presente trabalho foi dividido em três etapas: 1) Avaliação dos aspectos nociceptivos, motores e afetivo-cognitivos de ratos submetidos a um modelo adaptado de injúria por constrição crônica do nervo isquiático (CCI: uma ligadura) comparando com o modelo clássico de Bennett e Xie (CCI: quatro ligaduras): nossos resultados mostraram que o modelo adaptado de CCI produziu hipersensibilidade ao frio (teste de acetona) e alodinia mecânica (teste de von Frey) semelhante ao causado pelo modelo de CCI com quatro ligaduras. Ambos os grupos CCI apresentaram comportamento do tipo ansioso, depressivo e déficits cognitivos, utilizando-se o modelo de campo aberto (open field), teste de nado forçado e teste de reconhecimento de objeto, respectivamente. Contudo, o modelo adaptado pode ser uma melhor opção, visto que uma simples ligadura não provoca prejuízos motores, nem tampouco o comportamento de autotomia, diferentemente dos animais com CCI em que foram realizadas 4 ligaduras. 2) A - Estudo do efeito da Indometacina (2mg/kg), um antiinflamatório não-esteroidal, administrada por via periférica (IP) sobre a DN: a indometacina diminuiu a alodinia mecânica no primeiro, segundo e quarto dias, mas não no décimo quarto, vigésimo primeiro e vigésimo oitavo dias após a CCI adaptada (1 ligadura). Esses dados sugerem que a COX-1 e a COX-2 estão envolvidas na mediação da indução, mas não na manutenção da DN. B - Envolvimento do córtex PrL sobre a geração, potencialização e manutenção da DN, através da microinjeção local de cloreto de cobalto (CoCl2: 1mM/200nL), um bloqueador do influxo de cálcio (causando bloqueio de sinapses). O CoCl2 atenuou a alodinia mecânica no vigésimo primeiro e vigésimo oitavo, mas não no sétimo e décimo quarto dias após a CCI com 1 ligadura. Nossos dados também indicam que córtex PrL participa na elaboração da fase tardia da alodinia mecânica em nosso modelo adaptado de DN. C - Investigação do papel do sistema glutamatérgico, endocanabinoide e endovaniloide do córtex PrL sobre a alodinia mecânica 21 dias após a CCI adaptada. Os presentes resultados mostraram que a microinjeção do agonista N-metil D-Aspartato (NMDA), nas concentrações de 1 e 4 nmol, foi capaz de aumentar a alodinia mecânica durante o teste de von Frey, enquanto que um antagonista de receptores de aminoácidos excitatórios do tipo NMDA, o LY235959, diminuiu a alodinia mecânica quando microinjetado na maior dose (8nmol) no córtex PrL. O AM251, um antagonista de receptores endocanabinoides do tipo CB1, aumentou a alodinia mecânica em todas as doses (50, 100 e 200pmol) quando microinjetado no PrL. O tratamento do PrL com a menor concentração de anandamida (AEA: 5pmol) não alterou a alodinia mecânica; contudo, a administração de AEA no PrL nas doses intermediárias (de 50 e de 100pmol) reduziu a alodinia mecânica, e este efeito foi bloqueado pelo pré-tratamento do PrL com AM251 (200pmol). Digno de nota, o tratamento do PrL com a maior dose de AEA (200pmol) aumentou a alodinia mecânica, no entanto, este efeito foi atenuado pelo bloqueio prévio de receptores de potencial transitório vaniloide do tipo 1 (TRPV1), com microinjeções de 6 Iodo-nor-di-hidrocapsaicina (6-I-CPS) na dose de 3pmol no PrL. Esses dados sugerem que o córtex PrL está envolvido na potenciação e manutenção da DN crônica (DNC), através da ativação dos receptores NMDA e dos receptores TRPV1. O efeito da atenuação da alodinia mecânica foi causado pela ativação dos receptores endocanabinoides do tipo CB1 em roedores com DNC após 21 dias da CCI. 3) Investigação da comorbidade entre a DNC com ansiedade/pânico e o efeito dos agonistas e antagonistas de receptores NMDA e CB1 no PrL em roedores confrontados com serpente após 21 dias da CCI pelo método adaptado: o confronto entre roedores e serpentes constrictoras induziu nos ratos respostas relacionadas ao medo, tais como avaliação de risco, imobilidade defensiva e fuga em animais com DNC e Sham. Além disso, após terem sido confrontados com a serpente, os animais com DNC tiveram a alodinia mecânica aumentada. O pré-tratamento do PrL com NMDA (4nmol) aumentou o índice e porcentagem de avaliação de risco e a porcentagem de fuga, e a dose intermediária de NMDA (1nmol) aumentou o índice de fuga em animais neuropáticos confrontados com uma serpente constrictora. Além disso, a alodinia mecânica foi intensificada após o confronto em animais que receberam NMDA (4nmol) no PrL. Adicionalmente, os animais tratados com LY235959 diminuíram os comportamentos defensivos apresentados por animais com DNC quando confrontados com a salamanta. Além disso, esses animais pré-tratados com o antagonista de receptores NMDA tiveram seus limiares de von Frey aumentados após o confronto. O bloqueio de receptores endocanabionoides do tipo CB1, com o antagonista AM251, aumentou o comportamento de avaliação de riscos dos animais com DN crônica durante a exposição com a serpente e tiveram seus limiares de retirada de pata no teste de von Frey diminuídos após o confronto. Contudo, o pré-tratamento do PrL com AEA (100pmol) diminuiu os comportamentos defensivos de avaliação de risco, imobilidade defensiva e de fuga dos animais com DNC confrontados com a serpente, e esses animais também apresentaram aumento do limiar de retirada de pata no teste de von Frey após o confronto. Interessantemente, a dose de AEA (200pmol) não alterou comportamento defensivo, mas agravou DNC, através da diminuição do limiar de alodinia mecânica, apresentando um clássico efeito em \"U invertido\", pois menor e a maior dose de AEA (50 e 200pmol) induziram valores de comportamentos defensivo elevados, semelhante ao controle (veículo). Concluindo, os presentes dados obtidos no nosso trabalho, sugerem que o modelo adaptado de CCI, através da realização de uma ligadura do nervo isquiático, é um modelo animal eficaz para se estudarem as comorbidades entre DC e alterações cognitivas e emocionais. A diminuição da atividade das enzimas COX-1 e COX-2 atenuou a alodinia mecânica apenas durante a gênese da DN. Além disso, evidenciou-se que o córtex PrL é recrutado para elaborar a DN durante sua manutenção e potencialização. A ativação dos receptores glutamatérgicos do tipo NMDA e vaniloides do tipo TRPV1 potencializam a DNC e o sistema endocanabinoide via receptor CB1 a diminui. Finalmente, roedores com DNC tiveram seus limiares de alodinia mecânica diminuídos após o confronto com a serpente. Os comportamentos defensivos foram intensificados em animais com DNC, mostrando, assim, o estabelecimento da comorbidade entre DC e ansiedade/pânico e a participação do neocórtex na elaboração da DNC, em um modelo de neuropatia periférica induzida pela constrição crônica no nervo isquiático em ratos Wistar. A comorbidade entre ansiedade/pânico e DNC sensibiliza os animais, agravando o quadro de dor crônica. / Chronic pain (CP) is a global health problem. The incidence of CP in the world ranges from 7 to 40% of the population and, as a consequence, about 50% to 60% of those suffering from it are partially or totally incapacitated, in a transitory or permanent manner significantly compromising the quality of life. The prelimbic (PrL) division of the medial prefrontal cortex (mPFC) is an important region for the elaboration of cognitive and emotional aspects of pain. In addition, chronic neuropathic pain (CNP) can induce morphological changes, resulting in a reorganisation in the mPFC neurons. Moreover, there is an intrinsic relation between CP and anxiety disorder. Our study aims to investigate the effects of a modification of an animal model of CP and evaluate the neuroanatomical and pharmacological bases of neuropathic pain (NP). The role played by PrL cortex in the modulation of CNP was also investigated. Thus, the present work was divided into three steps: 1) Ethological analysis of nociceptive, motor and affective-cognitive aspects of rats submitted to an adapted model of chronic constriction of the ischiadicus nervus (CCI: a simple ligature) compared with the classic CCI model performed by Bennett and Xie (CCI: four ligatures): our results showed that the adapted-CCI model produced cold hypersensitivity and mechanical allodynia similar to those described in laboratory animals submitted to the model with four ligatures of the ischiadicus nervus. Both CCI groups displayed anxiety- and depression-like responses, and cognitive deficits, in the the open field test, forced swim test and object recognition test, respectively. However, the adapted model of CCI used in the present work may be a better choice, since a simple ligature of the ischiadicus nervus cause neither motor deficits, nor autotomy behaviour, unlike the animals with CCI induced by four ligatures of spinal nerves. 2) A- Effect of Indomethacin (2mg/kg) a non-steroidal anti-inflammatory drug peripherally administered (IP) on NP: The peripheral treatment with indomethacin reduced mechanical allodynia on the first, second, and fourth days, but not on the fourteenth, twenty-first, and twenty-eighth days after adapted CCI. These findings suggest that COX-1 and COX-2 are involved in the mediation of NP induction, but not in the maintainance of NP. B- Involvement of the PrL cortex on the generation, potentiation and maintenance of DN, through the microinjection of cobalt chloride (CoCl2: 1mM/200nL), a calcium influx blocker (synapse blocker): CoCl2 attenuated mechanical allodynia at twenty-first and twenty-eighth, but not at seventh and fourteenth days after CCI. Our data also indicate that PrL cortex participates in the elaboration of the chronic phase of mechanical allodynia in our adapted NP model. C- The role of the glutamatergic, endocannabinoid and endovanniloid systems of the PrL cortex on mechanical allodynia 21 days after CCI: The present data showed that microinjection of the N-methyl D-Aspartate agonist (NMDA), in a dose of 1 and 4nmol, was able to increase the mechanical allodynia threshold during mechanical stimulation by von Frey test filaments, whereas the NMDA receptors antagonist LY235959 decreased mechanical allodynia when microinjected at the highest dose (8nmol) in the PrL. The PrL cortex pretreatment with the CB1-cannabinoid receptor antagonist AM251 increased mechanical allodynia at all doses (50, 100 and 200 pmol). Microinjections of anandamide (AEA) at the smaller dose (5pmol) in PrL did not cause influence in the mechanical allodynia. However, the PrL treatment with AEA at the intermediate doses (50 and 100pmol) reduced mechanical allodynia and that effect were blocked by the pretreatment of the PrL cortex with AM251 (200pmol). Interestingly, the higher dose of AEA (200pmol) increased mechanical allodynia. Furthermore, this effect was attenuated by the PrL pretreatment with the transient potential receptor antagonist type 1 (TRPV1) ion channel selective antagonist 6 Iodonordihidrocapsaicin (6-I-CPS) in a dose of 3 pmol. These findings suggest that the PrL cortex is involved in the potentiation and maintenance of CNP through the activation of NMDA receptors and TRPV1 receptors in PrL cortex. The effect of attenuation of mechanical allodynia was caused by the activation of CB1 endocannabinoid receptors in rodents with CNP after 21 days of CCI. 3) Investigation of the comorbidity between CNP with anxiety/panic and the effect of NMDA glutamatergic and CB1 endocannabinoid receptors on PrL cortex after 21 days of CCI in rodents. The confrontation between a constrictor snake and the rodent elicited innate fear-related responses in prey, such as risk assessment, defensive immobility, and escape behaviour that were enhanced in CNP rodents and Sham. Also, after a confrontation with a potential predator, the CNP animals increased their mechanical allodynia thresholds. In adition, the microinjection of NMDA (4nmol) PrL, increased innate fear-related responses, such as risk assessment, and the treatment of PrL with NMDA at 1nmol incresed escape behaviour in rodents with CNP. The treatment of the PrL with NMDA in a dose of 4nmol increased the mechanical allodynia threshold during mechanical stimulation by von Frey test filaments, after confrontantion, whereas PrL pretreatment with LY235959 decreased innate fear-related responses, such risk assessment, defensive immobility, and escape behavior and decreased mechanical allodynia when microinjected (4 and 8nmol). The PrL Pretreatment with the CB1-cannabinoid receptor antagonist AM251 (all doses) increased unconditioned fear-related responses, such as risk assessment. Moreover, AM251 (100 and 200pmol) microinjections in the PrL increased mechanical allodynia after prey versus predator confrontation. The microinjections of AEA (100pmol) in the PrL decreased risk assessment, defensive immobility, and escape behaviour and reduced mechanical allodynia. Interestingly, the pretreatment of the PrL with the higher dose of AEA (200pmol) did not change the fear-induced behaviour elicited by predators, but increased the CNP. There was a classical inverted U-shape curve from the lower to the higher dose of AEA. These data suggest that the anxiety/panic and pain comorbidity increases CNP symptoms. The present findings also indicate that the CCI-adapted model, by ischiadicus nervus ligation with a single ligature is an effective animal model for studying comorbidities between CP and cognitive/emotional disturbances. In conclusion, we observed that nonsteroidal anti-inflammatory drugs are efficient to attenuate the mechanical allodynia only during NP genesis. The PrL cortex is recruited during the maintenance and potentiation of NP. The PrL glutamatergic system via NMDA activation and endovaniloid mechanisms related to TRPV1 ion channel activation potentiate CNP, and the endocannabinoid mechanisms via CB1 receptors recruitment decrease the CNP. Finally, rodents with CNP had their mechanical allodynia thresholds decreased after the confrontation with wild snakes. In addition, their defensive behaviours were itemised, thus showing the anxiety/panic and CNP potential comorbidity and the participation of the neocortex in the elaboration of CP in a model of peripheral neuropathy induced by injury of the ischiadicus nervus through its chronic constriction in Wistar rats. Ansiedade/Pânico Anxiety/panic Chronic neuropathic pain Comorbidade Psiquiátricas Córtex Pré-Limbico Dor Neuropática Crônica Endocannabinoid system Endovaniloid system Glutamatergic system Prelimbic córtex Psychiatric comorbidity Sistema Endocanabinoide Sistema Endovaniloide Sistema Glutamatérgico

Search results