Brain-wide functional architecture remodeling by alcohol dependence and abstinence

Alcohol abuse and alcohol dependence are key factors in the development of alcohol use disorder, which is a pervasive societal problem with substantial economic, medical, and psychiatric consequences. Although our understanding of the neurocircuitry that underlies alcohol use has improved, novel bra...

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Published inProceedings of the National Academy of Sciences - PNAS Vol. 117; no. 4; pp. 2149 - 2159
Main Authors Kimbrough, Adam, Lurie, Daniel J., Collazo, Andres, Kreifeldt, Max, Sidhu, Harpreet, Macedo, Giovana Camila, D’Esposito, Mark, Contet, Candice, George, Olivier
Format Journal Article
LanguageEnglish
Published United States National Academy of Sciences 28.01.2020
SeriesPNAS Plus
Subjects
Abuse
Alcohol use
Alcohols
Amygdala
Animal models
Architecture
Biological Sciences
Biomarkers
Brain
Brain architecture
Brain research
Dependence
Drinking behavior
Drug abuse
Drug dependence
Mesencephalon
Modularity
Modules
Neostriatum
Neuroimaging
PNAS Plus
Social problems
Target recognition
Thalamus
dependence
network analysis
Fos
iDISCO
graph theory
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Summary:Alcohol abuse and alcohol dependence are key factors in the development of alcohol use disorder, which is a pervasive societal problem with substantial economic, medical, and psychiatric consequences. Although our understanding of the neurocircuitry that underlies alcohol use has improved, novel brain regions that are involved in alcohol use and novel biomarkers of alcohol use need to be identified. The present study used a single-cell whole-brain imaging approach to 1) assess whether abstinence from alcohol in an animal model of alcohol dependence alters the functional architecture of brain activity and modularity, 2) validate our current knowledge of the neurocircuitry of alcohol abstinence, and 3) discover brain regions that may be involved in alcohol use. Alcohol abstinence resulted in the whole-brain reorganization of functional architecture in mice and a pronounced decrease in modularity that was not observed in nondependent moderate drinkers. Structuring of the alcohol abstinence network revealed three major brain modules: 1) extended amygdala module, 2) midbrain striatal module, and 3) cortico-hippocampo-thalamic module, reminiscent of the three-stage theory. Many hub brain regions that control this network were identified, including several that have been previously overlooked in alcohol research. These results identify brain targets for future research and demonstrate that alcohol use and dependence remodel brain-wide functional architecture to decrease modularity. Further studies are needed to determine whether the changes in coactivation and modularity that are associated with alcohol abstinence are causal features of alcohol dependence or a consequence of excessive drinking and alcohol exposure.
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Edited by Huda Akil, University of Michigan, Ann Arbor, MI, and approved December 16, 2019 (received for review June 10, 2019)
Author contributions: A.K. and O.G. designed research; A.K., A.C., M.K., H.S., G.C.M., and C.C. performed research; D.J.L. and M.D. contributed new reagents/analytic tools; A.K., D.J.L., M.D., and C.C. analyzed data; and A.K. and O.G. wrote the paper.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1909915117