Abstract
Cognitive functions, such as working memory, are disrupted in most psychiatric disorders. Many of these processes are believed to depend on the medial prefrontal cortex (mPFC). Traditionally, maze-based behavioral tasks, which have a strong exploratory component, have been used to study the role of the mPFC in working memory in mice. In maze tasks, mice navigate through the environment and require a significant amount of time to complete each trial, thereby limiting the number of trials that can be run per day. Here, we show that an operant-based delayed nonmatch to sample (DNMS) working memory task, with shorter trial lengths and a smaller exploratory component, is also mPFC-dependent. We created excitotoxic lesions in the mPFC of mice and found impairments in both the acquisition of the task, with no delay, and in the performance with delays introduced. Importantly, we saw no differences in trial length, reward collection, or lever-press latencies, indicating that the difference in performance was not due to a change in motivation or mobility. Using this operant DNMS task will facilitate the analysis of working memory and improve our understanding of the physiology and circuit mechanisms underlying this cognitive process. (PsycInfo Database Record (c) 2020 APA, all rights reserved).