Midbrain circuit regulation of individual alcohol drinking behaviors in mice

Authors

Barbara Juarez
Carole Morel
Stacy M. Ku
Yutong Liu
Hongxing Zhang
Sarah Montgomery
Hilledna Gregoire
Efrain Ribeiro
Marshall Crumiller
Ciorana Roman-Ortiz
Jessica J. Walsh
Kelcy Jackson
Denise E. Croote
Yingbo Zhu
Song Zhang
Leandro F. Vendruscolo
Scott Edwards
Amanda Roberts
Georgia E. Hodes
Yongke Lu, Marshall UniversityFollow
Erin S. Calipari
Dipesh Chaudhury
Allyson K. Friedman
Ming-Hu Han

Document Type

Article

Publication Date

12-20-2017

Abstract

Alcohol-use disorder (AUD) is the most prevalent substance-use disorder worldwide. There is substantial individual variability in alcohol drinking behaviors in the population, the neural circuit mechanisms of which remain elusive. Utilizing in vivo electrophysiological techniques, we find that low alcohol drinking (LAD) mice have dramatically higher ventral tegmental area (VTA) dopamine neuron firing and burst activity. Unexpectedly, VTA dopamine neuron activity in high alcohol drinking (HAD) mice does not differ from alcohol naive mice. Optogenetically enhancing VTA dopamine neuron burst activity in HAD mice decreases alcohol drinking behaviors. Circuit-specific recordings reveal that spontaneous activity of nucleus accumbens-projecting VTA (VTA-NAc) neurons is selectively higher in LAD mice. Specifically activating this projection is sufficient to reduce alcohol consumption in HAD mice. Furthermore, we uncover ionic and cellular mechanisms that suggest unique neuroadaptations between the alcohol drinking groups. Together, these data identify a neural circuit responsible for individual alcohol drinking behaviors.

Comments

This article is licensed under a Creative Commons Attribution 4.0 International License

Recommended Citation

Juarez, B., Morel, C., Ku, S. M., Liu, Y., Zhang, H., Montgomery, S., ... & Han, M. H. (2017). Midbrain circuit regulation of individual alcohol drinking behaviors in mice. Nature communications, 8(1), 1-15.