A2A-Positive Neurons in the Nucleus Accumbens Core Regulate Effort Exertion.

Previous work has implicated the nucleus accumbens (NAc) in the regulation of effort, defined as the amount of work an animal is willing to perform for a given reward, but little is known about the specific contributions of neuronal populations within the NAc to effort regulation. In this study, using male and female mice, we examined the contributions of direct pathway and indirect pathway neurons in the NAc core using an operant effort regulation task, in which the effort requirement is the number of lever presses needed for earning a food reward. Using optogenetics, we manipulated the activity of direct pathway spiny projection neurons (SPNs; dopamine D1-like, D1+) and indirect pathway SPNs (iSPNs; adenosine 2A receptor, A2A+). Activating dSPNs reduced lever pressing regardless of the effort requirement, as it elicited gnawing, a competing consummatory behavior. On the other hand, activating iSPNs in the NAc core (but not in the shell) reduced lever pressing in an effort-dependent manner: stimulation-induced reduction in performance was greater at higher press-to-reward ratio requirements. In contrast, optogenetically inhibiting NAc core iSPN output resulted in increased levels of effort exertion. Our results show that the indirect pathway output from the NAc core can bidirectionally regulate effort exertion.