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THE EFFECT OF NICOTINE CO-ADMINISTRATION ON ALCOHOL-INDUCED REACTIVE HIPPOCAMPAL CELL PROLIFERATION DURING ABSTINENCE IN AN ADOLESCENT MODEL OF AN ALCOHOL USE DISORDERHeath, Megan 01 January 2016 (has links)
A significant consequence of alcohol use disorders (AUDs) is hippocampal neurodegeneration. The hippocampus is responsible for learning and memory, and neurodegeneration in this brain region has been shown to result in cognitive deficits. Interestingly, some alcoholics demonstrate improvements in hippocampus-dependent functions, potentially due the phenomenon termed adult neurogenesis. Adult neurogenesis, the process by which neural stem cells (NSCs) proliferate, differentiate into neurons, migrate into the granule cell layer, and survive, occurs in two brain regions; however, this study examines only neurogenesis occurring in the subgranular zone of the hippocampal dentate gyrus. Four-day binge ethanol exposure in an animal model causes a decrease in neurogenesis during intoxication; however, there is a reactive increase in cell proliferation on day seven of abstinence. The purpose of this study was to determine the timing of increased cell proliferation. Furthermore, most alcoholics also smoke tobacco, and nicotine, the addictive component of tobacco, has also been shown to affect hippocampal neurogenesis. As many people initiate alcohol and tobacco use during adolescence, the second experiment herein examined the effect of nicotine coadministration on alcohol-induced reactive hippocampal cell proliferation.
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Implication de la protéine kinase C dans les troubles bipolaires : vers de nouvelles cibles thérapeutiques / Role of protein kinase C in bipolar disorders : towards novel therapeutic targetsAbrial, Erika 05 February 2013 (has links)
Le trouble bipolaire est une maladie invalidante caractérisée par une alternance d’épisodes maniaques et dépressifs. Malgré des efforts de recherche notables, la physiopathologie et les mécanismes d’action des traitements du trouble bipolaire demeurent peu connus. La protéine kinase C (PKC) est récemment apparue comme une cible moléculaire potentielle pour le traitement du trouble bipolaire. Dans ce travail de thèse, nous avons cherché à étudier le rôle de la PKC dans les phases maniaque et dépressive du trouble bipolaire. Nous avons montré que l’inhibition de la PKC a un effet antimaniaque non seulement chez le rat naïf, mais aussi dans un modèle de manie basé sur une privation de sommeil, que nous avons validé au cours de notre étude. De plus, les inhibiteurs de la PKC sont capables de rétablir les déficits de prolifération cellulaire hippocampique que présentent les rats privés de sommeil. Ces effets prolifératifs et antimaniaques seraient indépendants, puisque le blocage de la prolifération cellulaire n’abolit pas l’efficacité antimaniaque des inhibiteurs de la PKC dans le modèle de privation de sommeil. En parallèle, nous avons montré que l’activation de la PKC a un effet antidépresseur chez le rat naïf, alors que son inhibition provoque un phénotype pseudodépressif qui s’accompagne d’une diminution de la prolifération cellulaire hippocampique. L’ensemble de ces données révèle une implication de la PKC dans les deux phases du trouble bipolaire, et soutient l’hypothèse qu’une suractivation du système PKC serait à l’origine des perturbations de neuroplasticité associées à la manie. / Bipolar disorder is a devastating long-term disease characterized by alternate episodes of mania and depression. Despite extensive research, the molecular and cellular underpinnings of bipolar disorder remain to be fully elucidated. Protein kinase C (PKC) has emerged as a potential molecular target for the treatment of bipolar disorder. The present study investigated the role of PKC in manic- and depressive-like behaviors. Our results showed that PKC inhibition produced an antimanic-like effect not only in naive rats, but also in an animal model of mania based on sleep deprivation, that we have validated in our study. Interestingly, PKC inhibitors rescued the hippocampal cell proliferation deficits displayed by sleep-deprived animals. These proliferative and antimanic effects were independent, since blockade of cell proliferation did not abolish the antimanic efficacy of PKC inhibitors in the sleep deprivation model. At the same time, we showed that PKC activation had an antidepressant-like effect in naive rats, whereas its inhibition caused a depressive-like phenotype accompanied by a decrease in hippocampal cell proliferation. Taken together, our results demonstrate the involvement of the PKC system in regulating opposite facets of bipolar disorder, and support the hypothesis that an overactivation of the PKC signaling system may be crucial for the deficits of neuroplasticity associated with mania.
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