The role of anterior insular cortex inputs to dorsolateral striatum in binge alcohol drinking

How does binge drinking alcohol change synaptic function, and do these changes maintain binge consumption? The anterior insular cortex (AIC) and dorsolateral striatum (DLS) are brain regions implicated in alcohol use disorder. In male, but not female mice, we found that binge drinking alcohol produced glutamatergic synaptic adaptations selective to AIC inputs within the DLS. Photoexciting AIC & RARR;DLS circuitry in male mice during binge drinking decreased alcohol, but not water consumption and altered alcohol drinking mechanics. Further, drinking mechanics alone from drinking session data predicted alcohol-related circuit changes. AIC & RARR;DLS manipulation did not alter operant, valence, or anxiety-related behaviors. These findings suggest that alcohol-mediated changes at AIC inputs govern behavioral sequences that maintain binge drinking and may serve as a circuit-based biomarker for the development of alcohol use disorder.

Automated summary

Binge drinking alcohol leads to glutamatergic synaptic adaptations between the anterior insular cortex (AIC) and dorsolateral striatum (DLS), which maintain the behavioral sequences of binge consumption. These changes may serve as a circuit-based biomarker for the development of alcohol use disorder.