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Medial prefrontal cortical extracellular dopamine responses after acutely experimenter-administered or orally self-administered ethanolSchier, Christina Joanne 11 November 2013 (has links)
Dopamine signaling in the prefrontal cortex is thought to play a role in ethanol abuse. However, little is known about how ethanol affects dopamine signaling in the region. There are a few rodent studies regarding the matter, but both the pharmacological effects of ethanol and the effects of self-administered ethanol on extracellular dopamine in the medial prefrontal cortex remain unclear. The goal of the studies conducted for this dissertation is to clarify these relationships. To accomplish this, we monitored both dialysate dopamine and ethanol concentrations in the medial prefrontal cortex of Long Evans rats while an experimenter administered or a rat operantly self-administered ethanol. In naïve rats, dopamine dose-dependently increased after the intravenous infusions of a 10% ethanol solution, while no changes were noted after saline infusions. In rats trained to orally self-administer drinking solutions, dopamine transiently increased at the initiation of consumption in both ethanol-plus-sucrose- and sucrose-solution-consuming rats. Dopamine concentrations remained significantly elevated for the entire 21-minute drinking period in the ethanol-plus-sucrose-consuming group and for the first seven minutes of the drink period in the sucrose-consuming group. Additionally, in the ethanol-plus-sucrose-consuming group, dialysate ethanol concentrations were lowest at the initiation of drinking and then slowly increased, peaking 35 minutes after drinking commenced. Taken together, these data suggest that the mesocortical dopamine system is responsive to acute, intravenous and repeatedly, orally, self-administered ethanol. It appears that direct pharmacological effects of ethanol were responsible for the dopamine increase after acute, ethanol administration. Furthermore, while is it possible that the direct pharmacological effects of ethanol also bolstered the dopamine response seen after ethanol self-administration, we cannot firmly conclude by what mechanism ethanol elicited the differences. Overall, our clarifying and novel results support a role for the mesocortical dopamine system in ethanol abuse, which deserves continued investigation. In addition to completing the two aforementioned data studies, we also published the methods we use to monitor dialysate ethanol concentrations, in a specific brain region, during ethanol self-administration in a video-methods journal. The methods are presented in both a detailed written protocol, as well as a video demonstrating how to perform the procedures. / text
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Les effets d’un traitement au corticostérone sur la transmission dopaminergique mésocorticale du rat en période de stressMillette, Caroline 12 1900 (has links)
L’axe hypothalamo-hypophyso-surrénalien joue un rôle essentiel dans
l’adaptation et la réponse au stress. Toutefois, l’hyperactivation de cet axe ou
des niveaux chroniquement élevés de glucocorticoïdes (GC) entraînent des
conséquences pathologiques. Le système dopaminergique mésocortical, qui se
projette dans le cortex préfrontal médian (CPFm), joue un rôle adaptatif en
protégeant contre le stress. Jusqu’à présent, les interactions fonctionnelles
entre les GC (ex : corticostérone) et le système dopaminergique mésocortical
ne sont pas élucidées.
Dans ce mémoire, nous avons évalué les effets des GC sur les fonctions
dopaminergiques préfrontales en élevant chroniquement, à l’aide de minipompes
osmotiques, les niveaux de corticostérone aux concentrations
physiologiques maximales (1 mg/kg/h pendant 7 jours). Ce traitement n’a pas
modifié significativement, chez les rats stressés ou non, les niveaux post
mortem de dopamine et de son métabolite dans le tissu du CPFm. Toutefois,
l’évaluation par voltamétrie in vivo des changements de dopamine
extracellulaire dans le CPFmv a permis d’observer que la corticostérone
augmente significativement la libération de dopamine en réponse à l’exposition
à l’odeur de renard et au pincement de la queue. Nos études nous permettent
de conclure que la corticostérone potentialise la fonction dopaminergique
mésocorticale qui, à son tour, facilite la régulation négative en période de
stress. / The hypothalamic-pituitary-adrenal axis plays an essential role in
responding and adapting to stress, however overactivation of this axis or
chronically high levels of glucocorticoids lead to pathological outcomes. The
mesocortical dopamine (DA) system, terminating in the medial prefrontal
cortex (mPFC), plays an adaptive role in protecting against stress, yet the
functional interactions between glucocorticoids (eg. corticosterone) and the
mesocortical DA system are not clear. In the present studies, we investigated
the effects of glucocorticoids on prefrontal DA function using osmotic
minipumps to chronically elevate corticosterone levels in the high
physiological range (1 mg/kg/hr for 7 days).
Chronic corticosterone treatment did not significantly affect post
mortem levels of DA and its metabolites in PFC tissue in either unstressed or
stressed rats. However, using in vivo voltammetry to monitor changes in
extracellular DA release in PFC, corticosterone significantly increased DA
release in response to both types of stress examined, exposure to predator odor
and tail pinch stress. We conclude that corticosterone indeed potentiates
mesocortical DA function, which in turn facilitates negative feedback
regulation in times of stress.
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Les effets d’un traitement au corticostérone sur la transmission dopaminergique mésocorticale du rat en période de stressMillette, Caroline 12 1900 (has links)
L’axe hypothalamo-hypophyso-surrénalien joue un rôle essentiel dans
l’adaptation et la réponse au stress. Toutefois, l’hyperactivation de cet axe ou
des niveaux chroniquement élevés de glucocorticoïdes (GC) entraînent des
conséquences pathologiques. Le système dopaminergique mésocortical, qui se
projette dans le cortex préfrontal médian (CPFm), joue un rôle adaptatif en
protégeant contre le stress. Jusqu’à présent, les interactions fonctionnelles
entre les GC (ex : corticostérone) et le système dopaminergique mésocortical
ne sont pas élucidées.
Dans ce mémoire, nous avons évalué les effets des GC sur les fonctions
dopaminergiques préfrontales en élevant chroniquement, à l’aide de minipompes
osmotiques, les niveaux de corticostérone aux concentrations
physiologiques maximales (1 mg/kg/h pendant 7 jours). Ce traitement n’a pas
modifié significativement, chez les rats stressés ou non, les niveaux post
mortem de dopamine et de son métabolite dans le tissu du CPFm. Toutefois,
l’évaluation par voltamétrie in vivo des changements de dopamine
extracellulaire dans le CPFmv a permis d’observer que la corticostérone
augmente significativement la libération de dopamine en réponse à l’exposition
à l’odeur de renard et au pincement de la queue. Nos études nous permettent
de conclure que la corticostérone potentialise la fonction dopaminergique
mésocorticale qui, à son tour, facilite la régulation négative en période de
stress. / The hypothalamic-pituitary-adrenal axis plays an essential role in
responding and adapting to stress, however overactivation of this axis or
chronically high levels of glucocorticoids lead to pathological outcomes. The
mesocortical dopamine (DA) system, terminating in the medial prefrontal
cortex (mPFC), plays an adaptive role in protecting against stress, yet the
functional interactions between glucocorticoids (eg. corticosterone) and the
mesocortical DA system are not clear. In the present studies, we investigated
the effects of glucocorticoids on prefrontal DA function using osmotic
minipumps to chronically elevate corticosterone levels in the high
physiological range (1 mg/kg/hr for 7 days).
Chronic corticosterone treatment did not significantly affect post
mortem levels of DA and its metabolites in PFC tissue in either unstressed or
stressed rats. However, using in vivo voltammetry to monitor changes in
extracellular DA release in PFC, corticosterone significantly increased DA
release in response to both types of stress examined, exposure to predator odor
and tail pinch stress. We conclude that corticosterone indeed potentiates
mesocortical DA function, which in turn facilitates negative feedback
regulation in times of stress.
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