The differential effect of optogenetic serotonergic manipulation on sustained motor actions and stationary waiting for future rewards in mice

Abstract

AbstractSerotonin is an essential neuromodulator that affects behavioral and cognitive functions. Previous studies have shown that activation of serotonergic neurons in the dorsal raphe nucleus (DRN) promotes patience to wait for future rewards. However, it is still unclear whether serotonergic neurons also regulate persistence to act for future rewards. Here we used optogenetic activation and inhibition of DRN serotonergic neurons to examine their effects on sustained motor actions for future rewards. We trained mice to perform stationary waiting and repeated lever-pressing tasks with variable reward delays and tested effects of optogenetic activation and inhibition of DRN serotonergic neurons on task performance. Interestingly, in the lever-pressing task, mice tolerated longer delays as they repeatedly pressed a lever than in the stationary waiting task, suggesting that lever-pressing actions may not simply be costly, but may also be subjectively rewarding. Optogenetic activation of DRN serotonergic neurons prolonged waiting in the stationary waiting task, consistent with previous studies, but it did not affect lever pressing time or numbers. While optogenetic inhibition decreased waiting, it did not affect lever pressing time or numbers. In generalized linear model analysis that incorporated the time during each session and the number of sessions, however, optogenetic activation negatively affected the number and the speed of lever pressing. These results revealed that the necessity of motor actions may increase motivation for delayed rewards and that DRN serotonergic neurons more significantly promote stationary waiting rather than persistent motor actions for future rewards.