Alcohol Dependence Modifies Brain Networks Activated During Withdrawal and Reaccess: A c-Fos–Based Analysis in Mice

c-Fos公司 酒精依赖 心理学 神经科学 生物 基因表达 生物化学 遗传学 基因
作者
Alison V. Roland,Cesar A.O. Coelho,Harold L. Haun,Carol A. Gianessi,Marcelo F. Lopez,Shannon D’Ambrosio,Samantha Machinski,Christopher D. Kroenke,Paul W. Frankland,Howard C. Becker,Thomas L. Kash
出处
期刊:Biological Psychiatry [Elsevier BV]
卷期号:94 (5): 393-404 被引量:63
标识
DOI:10.1016/j.biopsych.2023.01.018
摘要

Background High-level alcohol consumption causes neuroplastic changes in the brain that promote pathological drinking behavior. Some of these changes have been characterized in defined brain circuits and cell types, but unbiased approaches are needed to explore broader patterns of adaptations. Methods We used whole-brain c-Fos mapping and network analysis to assess patterns of neuronal activity during alcohol withdrawal and following reaccess in a well-characterized model of alcohol dependence. Mice underwent 4 cycles of chronic intermittent ethanol to increase voluntary alcohol consumption, and a subset underwent forced swim stress to further escalate consumption. Brains were collected either 24 hours (withdrawal) or immediately following a 1-hour period of alcohol reaccess. c-fos counts were obtained for 110 brain regions using iDISCO and ClearMap. Then, we classified mice as high or low drinkers and used graph theory to identify changes in network properties associated with high-drinking behavior. Results During withdrawal, chronic intermittent ethanol mice displayed widespread increased c-Fos expression relative to air-exposed mice, independent of forced swim stress. Reaccess drinking reversed this increase. Network modularity, a measure of segregation into communities, was increased in high-drinking mice after alcohol reaccess relative to withdrawal. The cortical amygdala showed increased cross-community coactivation during withdrawal in high-drinking mice, and cortical amygdala silencing in chronic intermittent ethanol mice reduced voluntary drinking. Conclusions Alcohol withdrawal in dependent mice causes changes in brain network organization that are attenuated by reaccess drinking. Olfactory brain regions, including the cortical amygdala, drive some of these changes and may play an important but underappreciated role in alcohol dependence.
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