Project Summary/Abstract Aside from exploring highly relevant scientific questions, the goal of this K01 extends to providing the candidate with mentored training to facilitate her transition to an independent investigator. This encompasses the acquisition of new, sophisticated state-of-the-art techniques as well as career development with the ultimate aim of providing the candidate with a multidisciplinary toolkit to study alcohol use disorder and enhanced mentoring/training skills to relay her expertise to the next generation of mentees interested in alcohol research. Under the mentorship of Dr. Weiner, the candidate will explore the role of posterior basolateral amygdala (BLA) inputs to the ventral subiculum (vSub) of the ventral hippocampus in alcohol dependent male and female rats. Specific Aim 1 of this project will focus on the circuitry and neuroadaptations of pBLA-vSub circuits using the well-validated chronic intermittent ethanol exposure (CIE) paradigm. Based on preliminary findings and growing evidence that the pBLA plays a central role in mediating affective behavior and alcohol drinking-related behaviors, we advance the working hypothesis that CIE initially increases pBLA-vSub excitability in males but that a disproportionate strengthening of inhibitory elements of this circuitry initially protects females from this maladaptive change. However, we predict that this protective effect is either lost or overcome after a longer CIE exposure, leading to similar levels of network excitability and anxiety-like behavior in both sexes. These experiments will focus on two novel inhibitory pBLA-vSub projections that we have begun to characterize, including a monosynaptic GABAergic projection from the pBLA onto vSub glutamatergic neurons. Experiments, using ex vivo optogenetics, and fiber photometry will examine the integrated functional plasticity of glutamatergic and GABAeregic synapses within these pBLA-vSub circuits. To further establish the cellular identity