Project Abstract Post-traumatic stress disorder (PTSD) is a prevalent condition that afflicts approximately 8% of the United States population. In addition to core symptoms of the disorder, up to 64% of individuals diagnosed with PTSD experience symptoms of psychosis, such as hallucinations and delusions. Although the incidence of this comorbidity is high, treatment for PTSD and comorbid psychosis remains inadequate. However, recent work has demonstrated the antipsychotic potential of orexin receptor antagonists in a rodent model used to study PTSD. Selective and nonselective orexin receptor antagonists, when administered systemically, can alleviate psychosis-like neurophysiological and behavioral deficits in a rodent model used to study PTSD. Orexin receptors are expressed throughout the brain but the paraventricular nucleus of the thalamus (PVT) receives the highest concentration of orexin fibers, suggesting orexin receptor antagonists can significantly inhibit activity of the PVT. It has been shown that chemogenetic activation of projections from the PVT to the nucleus accumbens (NAc) increase dopamine neuron activity in the ventral tegmental area, which underlies psychosis-like behavior. Further, the PVT is a stress-sensitive region and discrete projections from the PVT to the NAc become activated following stressful events. Taken together, these data suggest that stress increases the activity of PVT NAc projections and this heightened activity results in an increase in downstream dopamine neuron activity. Orexin receptors are highly expressed within the PVT; therefore, it is further hypothesized that orexin receptor antagonists alleviate psychosis-like behavior by inhibiting the activity of PVT NAc projections following stress. In the current proposal two-day inescapable footshock will be used to induce stress-related pathophysiology in Sprague Dawley rats. Aim 1 will test the hypothesis that footshock stress-induced increases in the firing rate of PVT NAc projecting neurons are reversible by selective orexin receptor antagonists. Aim 2 will test the hypothesis that inhibition of PVT NAc projections will normalize stress-induced increases in dopamine neuron activity and reverse deficits in prepulse inhibition of startle. The proposed studies will examine the role of PVT NAc projections in mediating psychosis-like behavior and examine the direct effect of selective orexin receptor antagonists on PVT NAc projections, following stress. Ultimately this proposal aims to uncover novel therapeutic targets that will alleviate symptoms of psychosis associated with PTSD. My long-term goal is to become an independent neuroscientist that studies circuit-level alterations contributing to psychiatric disorders. The research plan described above will provide me with scientific training in techniques, such as fiber photometry and chemogenetics, that I will utilize throughout my career to examine and manipulate neuronal circuits. Further, I will present data...