Prefrontal engrams of long-term fear memory perpetuate pain perception

A painful episode can lead to a life-long increase in an individual's experience of pain. Fearful anticipation of imminent pain could play a role in this phenomenon, but the neurobiological underpinnings are unclear because fear can both suppress and enhance pain. Here, we show in mice that long-term associative fear memory stored in neuronal engrams in the prefrontal cortex determines whether a painful episode shapes pain experience later in life. Furthermore, under conditions of inflammatory and neuropathic pain, prefrontal fear engrams expand to encompass neurons representing nociception and tactile sensation, leading to pronounced changes in prefrontal connectivity to fear-relevant brain areas. Conversely, silencing prefrontal fear engrams reverses chronically established hyperalgesia and allodynia. These results reveal that a discrete subset of prefrontal cortex neurons can account for the debilitating comorbidity of fear and chronic pain and show that attenuating the fear memory of pain can alleviate chronic pain itself. Can erasing bad memories relieve pain? Stegemann et al. uncover the cellular basis of fear-pain interactions, reporting that fear potentiates pain via memories encoded in prefrontal engrams. Blocking these memory traces reduces chronic pain in mice.

Automated summary

A painful episode can have long-term effects on an individual's pain experience, and fear anticipation may play a role in this phenomenon. However, the neurobiological mechanisms behind this are unclear. This study in mice shows that fear memories stored in the prefrontal cortex can shape pain experience later in life, and blocking these fear memories can alleviate chronic pain.