Neural correlates and determinants of approach-avoidance conflict in the prelimbic prefrontal cortex.

The recollection of environmental cues associated with threat or reward allows animals to select the most appropriate behavioral responses. Neurons in the prelimbic (PL) cortex respond to both threat- and reward-associated cues. However, it remains unknown whether PL regulates threat-avoidance vs. reward-approaching responses when an animals' decision depends on previously associated memories. Using a conflict model in which male Long-Evans rats retrieve memories of shock- and food-paired cues, we observed two distinct phenotypes during conflict: (1) rats that continued to press a lever for food () and (2) rats that exhibited a complete suppression in food seeking (). Single-unit recordings revealed that increased risk-taking behavior in is associated with persistent food-cue responses in PL, and reduced spontaneous activity in PL glutamatergic (PL) neurons during conflict. Activating PL neurons in attenuated food-seeking responses in a neutral context, whereas inhibiting PL neurons in reduced defensive responses and increased food approaching during conflict. Our results establish a causal role for PL neurons in mediating individual variability in memory-based risky decision-making by regulating threat-avoidance vs. reward-approach behaviors.