Comparison of ethanol-related behaviors and FosB mapping in hybrid mice with distinct drinking patterns

Ozburn, Angela Renee

27 January 2011

Distinct alcohol self-administration behaviors are observed when comparing two F1 hybrid strains of mice: C57BL/6J x NZB/B1NJ (B6xNZB) show reduced alcohol preference (RAP) after experience with high concentrations of alcohol and abstinence periods and C57BL/6J x FVB/NJ (B6xFVB) show sustained alcohol preference (SAP), providing models of stable, high alcohol consumption and moderate drinking. The purpose of this dissertation is to characterize ethanol-related behaviors and define neurocircuits engaged by SAP and RAP. We performed a battery of behavioral tests to define behaviors that predict SAP and RAP. B6xFVB exhibited less severe ethanol-induced conditioned taste aversion and were less sensitive to ethanol-induced loss of righting reflex (LORR) than B6xNZB. Both hybrids demonstrated ethanol-induced place preference and low ethanol withdrawal severity. Hybrids differ in sensitivity to the aversive and sedative, but not rewarding, effects of ethanol. Results of elevated plus maze, mirror chamber, and locomotor tests reveal B6xFVB mice are less anxious and more active than B6xNZB mice. The validity of the SAP behavioral phenotype in B6xFVB mice was determined by testing whether chronic self-administration of ethanol produced tolerance or dependence. We measured responses from ethanol-naïve and ethanol-experienced mice in tests of ethanol-induced hypothermia, withdrawal severity, and LORR. Chronic ethanol self-administration resulted in tolerance to sedative and hypothermic effects of ethanol; however, physical dependence was not evident as measured by ethanol withdrawal severity. We tested the hypothesis that SAP and RAP behavioral differences are represented by differential production of the inducible transcription factor, FosB. FosB immunoreactivity was quantified in 16 brain structures after chronic ethanol consumption or only water. Neuronal activity (as measured by FosB levels) depended on ethanol experience, brain region, and genotype, further supporting the notion that neuronal circuitry underlies motivational aspects of ethanol consumption. For B6xNZB mice, ethanol consumption resulted in increased neuronal activity in the EW, VTA, and amygdala, known ethanol- reward-, and stress-related brain regions. In B6xFVB, ethanol consumption resulted in a larger network of correlated regional activity, whereas in B6xNZB ethanol consumption resulted in a smaller network. These studies characterized genetic models of stable, high consumption (SAP) and moderate drinking (RAP) in two hybrid mouse strains. / text

Alcohol preference

Alcohol consumption

Ethanol-related behaviors

Neurocircuits

Withdrawal

Drinking patterns

Hybrid mice

Etude anatomique de l'amygdale étendue centrale chez la souris : connectivité générale et circuits cellule-spécifiques ; implications fonctionnelles dans la douleur / A study of mouse central extended amygdala : general connectivity and cell-type specific circuits ; functional implications in pain

Ye, Jiahao

08 February 2018

L'amygdale centrale (EAc) est un macrosystème du cerveau antérieur qui joue un rôle important dans la peur, l'anxiété et la douleur. Les deux composants clés, le noyau latéral du lit de la strie terminale (STL) et l’amygdale centrale (CeA), possèdent des caractéristiques neurochimiques, hodologiques et fonctionnelles très similaires. En dépit de cette vision simplifiée du STL et du CeA, de nombreuses questions résident quant à l'organisation mésoscopique des entrées et des sorties des subdivisions de l''EAc chez la souris. En outre, il reste à déterminer si ces similitudes de connexion sont également partagées au niveau cellulaire. Dans ce travail, nous avons abordé ces questions de manière comparative chez la souris. Nous avons trouvé de riches afférences et efférences préférentielles pour les différentes subdivisions de l'EAC, ainsi que des afférences convergentes et divergentes. Nous avons également mis en évidence deux groupes distincts de cellules exprimant la protéine kinase C delta (PKCδ) ou la somatostatine (SOM) qui sous-tendent des circuits neuronaux spécifiques parallèles dans le STL et le CeA, ainsi qu'entre les deux structures. Enfin, des données préliminaires suggèrent que les neurones exprimant la PKCδ dans le STL et le CeA pourraient être impliqués dans la douleur tonique. Ces organisations structurales parallèles, mais aussi différentielles, des circuits neuronaux dans le EAc pourraient sous-tendre des aspects fonctionnels similaires et dissociables de l'anxiété, de la peur et de la douleur. / Central extended amygdala (EAc) is a forebrain macrosystem that plays important roles in fear, anxiety and pain. The two key components, the lateral bed nucleus of stria terminalis (STL) and central nucleus of amygdala (CeA), are highly similar in their neurochemical, connectional, and functional features. Despite this simplified view of STL and CeA, much remains elusive of the mesoscopic inputs and outputs of EAc subdivisions in mouse model. Also, it is not known whether the connectional similarities are also shared at cellular level. Here, we addressed these question in comparative ways in mice. We found rich preferential inputs and outputs to different subdivisions of EAc, as well as convergent and divergent inputs. We also found two non-overlapping cell groups expressing either protein kinase C delta (PKCδ) or somatostatin (SOM) organize the parallel cell-type specific neuronal circuits in STL and CeA. Finally, preliminary data suggest that PKCδ in STL and CeA might be implicated in tonic pain. These parallel but also differential structural organizations of neuronal circuits in EAc might underlie similar and dissociable functional aspects of anxiety, fear and pain.

Amygdale étendue centrale

Noyau central de l’amygdale

Noyau du lit de la strie terminale

Neurocircuits

Protéine kinase C delta

Somatostatine

Central extended amygdala

Central nucleus of the amygdala

Bed nucleus of the stria terminalis

Neurocircuit

Protein kinase C delta

Somatostatin

573.8

572.8