Abstract
Even though persistent neural activity has been proposed as a mechanism for maintaining eligibility trace, direct empirical evidence for active maintenance of eligibility trace has been lacking. We recorded neuronal activity in the medial prefrontal cortex (mPFC) in rats performing a dynamic foraging task in which a choice must be remembered until its outcome on the timescale of seconds for correct credit assignment. We found that mPFC neurons maintain significant choice signals during the time period between action selection and choice outcome. We also found that neural signals for choice, outcome, and action value converge in the mPFC when choice outcome was revealed. Our results indicate that the mPFC maintains choice signals necessary for temporal credit assignment in the form of persistent neural activity in our task. They also suggest that the mPFC might update action value by combining actively maintained eligibility trace with action value and outcome signals.
Highlights
The medial PFC (mPFC) neuronal population carries significant choice signals in the form of persistent activity during the time period between the animal’s choice and its outcome
We examined whether the mPFC neuronal population carries memory signals for a chosen action in the form of persistent activity in a task that requires credit assignment across a temporal gap of ~ 1 s
We found that all subregions of the mPFC (ACC, prelimbic cortex (PLC) and infralimbic cortex (ILC)) maintain memory signals for a chosen action in the form of persistent ensemble activity during the time period between the animal’s choice of action and its outcome
Summary
The mPFC neuronal population carries significant choice signals in the form of persistent activity during the time period between the animal’s choice and its outcome. Of 78 ACC neurons, 13 and 48 were significantly responsive to choice and outcome, respectively, during the first 1-s time period since reward stage onset (the time the outcome was revealed; 0.5 s following the rat’s arrival at the Scientific Reports | (2020) 10:18860 |
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
