Repeated binge ethanol drinking enhances electrical activity of central amygdala corticotropin releasing factor neurons in vivo.

Abstract Binge ethanol drinking is an increasingly problematic component of alcohol use disorder costing the United States approximately over $150 billion every year and causes progressive neuroplasticity alterations in numerous brain regions. However, the precise nature or machinery that underlie binge drinking has not yet been elucidated. Corticotropin releasing factor (CRF) neurons in the central amygdala (CeA) are thought to modulate binge drinking, but the specific circuit mechanisms remain poorly understood. Here, we combined optogenetics with in vivo electrophysiology to identify and record from CeA CRF neurons in mice during a repeated binge ethanol drinking task. First, we found that CeA CRF neurons were more active than CeA non-CRF cells during our binge drinking paradigm. We also observed that CeA CRF neurons displayed a heterogeneous spectrum of responses to a lick of ethanol including, pre-lick activated, lick-excited, lick-inhibited, and no response. Interestingly, pre-lick activated CeA CRF neurons exhibited higher frequency and burst firing during binge drinking sessions. Moreover, their overall tonic and phasic electrical activity enhances over repeated binge drinking sessions. Remarkably, CeA CRF units and pre-lick activated CeA CRF neurons did not show higher firing rate or bursting activity during water and sucrose consumption, suggesting that ethanol may “hijack” or plastically alter their intrinsic excitability.