The behavioral repertoire of an organism can be highly diverse, spanning from social to defensive. How an animal efficiently switches between distinct behaviors is a fundamental question whose inquiry will provide insights into the mechanisms that are necessary for an organism's survival. Previous work aimed at identifying the neural systems responsible for defensive behaviors, such as freezing, has demonstrated critical interactions between the prefrontal cortex and amygdala. Indeed, this foundational research has provided an indispensable anatomical framework that investigators are now using to understand the physiological mechanisms of defined neural circuits within the prefrontal cortex that code for the rapid and flexible expression of defensive behaviors. Here we review recent findings demonstrating temporal and rate coding mechanisms of freezing behavior in the prefrontal cortex. We hypothesize that anatomical features, such as target structure and cortical layer, as well as the nature of the information to be coded, may be critical factors determining the coding scheme. Furthermore, detailed behavioral analyses may reveal subtypes of defensive behaviors that represent the principle factor governing coding selection.
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