Compulsive eating is a major contributor to the obesity epidemic in the US, as over 35% of adults are now classified as overweight or obese. Behavioral outcomes such as compulsive eating derive from a complex interaction of genetics, innate behaviors and learning about previous experiences. Cue-food associations (e.g. advertising, eating in front of the television, etc.) that are formed during periods of hunger lead to long-lasting memories that control non- homeostatic overconsumption. However, the neural circuitry, and specifically the molecular cell types, governing this behavior are not well defined. Using an original paradigm that induced overconsumption in sated mice with contextual cues, I have established a role of the insular cortex, and specifically Nos1 neurons within the insular cortex, as critical mediators of learned overconsumption. These neurons do not play a role in homeostatic feeding itself and are therefore hypothesized to provide top down control of homeostatic feeding circuitry to control food intake. Moreover, a projection from the insular cortex to the central amygdala is necessary to generate this overconsumption response. In the mentored K-phase of this grant, I analyzed the role of a molecularly defined cortical-amygdalar circuit in overconsumption and determined the amygdala targets of insular cortex Nos1 neurons. In the independent phase (R00), I will further this understanding by employing in vivo calcium imaging to the insula Nos1 to central amygdala circuit during behavior. I will also utilize retrograde tracing techniques to examine the regions and molecularly profile the cell types that directly project to the insular cortex neurons that control overconsumption, and test causally how they are functionally involved in non- homeostatic feeding. Together, these data will establish a cell-type specific circuit through the insular cortex that controls overconsumption in response to environmental stimuli. This data will expand the knowledge of higher-order brain regions involved in feeding behavior and may lead to the development of novel therapeutic avenues to control overeating.