Incubation of craving for alcohol-associated cues is reduced by running-wheel exercise.

Craving - the powerful urge to seek and consume alcohol in response to alcohol-associated cues does not diminish after drinking cessation but rather is magnified throughout abstinence. This phenomenon, termed "incubation of craving", contributes to the relapsing nature of alcohol use disorder. Despite its occurrence in human populations and being well-studied in rodent models of psychostimulant drug relapse, the underlying neural mechanisms and potential treatments remain largely unexplored for alcohol-related incubation of craving. Our research seeks to meet this gap, and this particular study investigated the neural correlates of the incubation of craving for alcohol-associated cues and assessed whether exercise could prevent increased relapse propensity in rats. Male Long Evans rats were trained to lever press for an alcohol reward delivered with simultaneous presentation of a discrete cue. This response was then extinguished and reinstated by presenting the discrete cue alone when rats pressed the lever. Cue-induced reinstatement occurred either on day 1 following extinction (No Abstinence) or on day 29 (Abstinence). A third group was tested on day 29 and had 4-hour daily voluntary running wheel access throughout this abstinence period (Exercise). All rats were perfused 90 minutes following test, and relative activation across the brain was estimated by quantifying c-Fos protein immunoreactivity. The brain-wide coordination of neural activity was also mapped. We found a robust incubation of craving effect for alcohol-associated cues, which was mitigated by exercise. Immunohistochemistry revealed that the Abstinence group demonstrated higher c-Fos immunoreactivity compared to the No Abstinence group in multiple reinstatement-related brain regions. This effect was reversed in the Exercise group. Brain-wide neural mapping demonstrated that the Abstinence group had decreased modularity (groups of coordinating brain regions) compared to the no-abstinence group. Although network connectivity profile in the exercise group was different from no abstinence, we found that overall neural activation returned to a similar modularity profile of clustered regions as this condition, indicating that exercise does not attenuate the incubation of craving effect by reversing all the neural effects of abstinence. Rather, exercise may be acting upon select brain regions or pathways to exert relapse protective effects by restoring widespread interconnectivity. This is the first study to investigate neural activation in incubated alcohol-seeking, and provides supporting evidence for promoting voluntary exercise as an adjunctive treatment for relapse prevention in alcohol-use disorder.