5-HT2c receptors regulate the balance between instrumental vigour and restraint
Härmson O., Grima LL., Panayi MC., Husain M., Walton ME.
<jats:title>Abstract</jats:title><jats:p>The serotonin (5-HT) system, particularly the 5-HT<jats:sub>2C</jats:sub> receptor, has consistently been implicated in behavioural control. However, while some studies have focused on the role 5HT<jats:sub>2C</jats:sub> receptors plays in regulating motivation to work for reward, others have highlighted its importance in response restraint. To date, it is unclear how 5-HT transmission at this receptor regulates the balance of response invigoration and restraint in anticipation of future reward. In addition, it remains to be established how 5HT<jats:sub>2C</jats:sub> receptors gate the influence of internal versus cue-driven processes over reward-guided actions. To elucidate these issues, we investigated the effects of administering the 5HT<jats:sub>2C</jats:sub> receptor antagonist SB242084, both systemically and directly into the nucleus accumbens core (NAcC), in rats performing a Go/No-Go task for small or large rewards. The results were compared to administration of <jats:italic>d</jats:italic>-amphetamine into the NAcC, which has previously been shown to promote behavioural activation. Systemic perturbation of 5HT<jats:sub>2C</jats:sub> receptors – but crucially not intra-NAcC infusions – consistently boosted rats’ performance and instrumental vigour on Go trials when they were required to act. Concomitantly, systemic administration also reduced their ability to withhold responding for rewards on No-Go trials, particularly late in the holding period. Notably, these effects were often apparent only when the reward on offer was small. By contrast, inducing a hyperdopaminergic state in the NAcC with <jats:italic>d</jats:italic>-amphetamine strongly impaired response restraint on No-Go trials both early and late in the holding period, as well as speeding action initiation. Together, these findings suggest that 5HT<jats:sub>2C</jats:sub> receptor transmission, outside the NAcC, shapes the vigour of ongoing goal-directed action as well as the likelihood of responding as a function of expected reward.</jats:p>