Although the parabrachial nucleus (PBN) has been shown to relay signals associated with aversion, such as visceral malaise, pain, itch, and cues associated with potential threats, the function of its efferent projection to the ventral tegmental area (VTA) remains elusive. Previous studies in the lab have discovered that enhancing the PBN-to-VTA excitatory glutamatergic inputs dampens food self-administration behaviors. To further investigate the function roles of the PBN-to-VTA input, I first employed retrograde targeting approach to selectively target VTA-projecting PBN neurons. By combining activity-dependent c-Fos staining with different behavioral paradigms, I found that subpopulations of VTA-projecting PBN neurons were functionally involved in stress and fear, but not feeding, malaise or anxiety. These results suggest that the PBN-to-VTA inputs may relay aversive emotions such as stress and fear. To specify the downstream mediator of the PBN-to-VTA inputs, I employed the anterograde targeting and activity-dependent targeting (Targeted Recombination in Active Populations, TRAP) approaches to selectively target VTA neurons innervated and activated by the PBN input, respectively. Despite that PBN input anatomically innervated both the VTA DA and non-DA neurons, I found that the PBN input functionally recruited mostly non-dopaminergic cells. Moreover, these neurons sent projections to several downstream brain regions, including peduncular part of lateral hypothalamus (PLH) and lateral habenula (LHb). Considered together, these results suggest the PBN may relay negative emotion through the VTA to override food seeking behaviors.