Abstract

The prelimbic cortex is implicated in goal-directed learning in rodents; however, it is unclear whether it is involved in the consolidation of this learning, and what cellular processes are involved. We used pERK as a marker of activity-related synaptic plasticity to assess learning-induced changes in distinct layers and neuronal populations of the prelimbic prefrontal cortex (PL). Training produced long-lasting upregulation of pERK throughout the PL and specifically within neurons that project to the pDMS, another region critical for goal-directed learning. Next, we demonstrated that pERK signaling in the PL was necessary for the consolidation of goal-directed learning. Together, these results indicate that instrumental training induces ERK signaling in distinct layers and populations in the PL and this signaling underlies the consolidation of goal-directed learning.

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