Abstract
Value-associated cues in the environment often enhance subsequent goal-directed behaviors in adults, a phenomenon supported by the integration of motivational and cognitive neural systems. Given that the interactions among these systems change throughout adolescence, we tested when the beneficial effects of value associations on subsequent cognitive control performance emerge during adolescence. Participants (N = 81) aged 13–20 completed a reinforcement learning task with four cue-incentive pairings that could yield high gain, low gain, high loss, or low loss outcomes. Next, participants completed a Go/NoGo task during fMRI where the NoGo targets comprised the previously learned cues, which tested how prior value associations influence cognitive control performance. Improved accuracy for previously learned high gain relative to low gain cues emerged with age. Older adolescents exhibited enhanced recruitment of the dorsal striatum and ventrolateral prefrontal cortex during cognitive control execution to previously learned high gain relative to low gain cues. Older adolescents also expressed increased coupling between the dorsal striatum and dorsolateral prefrontal cortex for high gain cues, whereas younger adolescents expressed increased coupling between the striatum and ventromedial prefrontal cortex. These findings reveal that learned high value cue-incentive associations enhance cognitive control in late adolescence in parallel with value-selective recruitment of corticostriatal systems.
| Original language | English (US) |
|---|---|
| Article number | 100730 |
| Journal | Developmental Cognitive Neuroscience |
| Volume | 40 |
| DOIs | |
| State | Published - Dec 2019 |
Funding
We thank Barbara Braams, Juliet Davidow, Gina Falcone, Laurel Kordyban, Erik Nook, Katherine Powers, Alexandra Rodman, Maheen Shermohammed, and Constanza Vidal Bustamante for assistance with data collection. We thank Tammy Moran, Ross Mair, and the Center for Brain Science at Harvard University for technical assistance during data collection. We thank Erik Kastman, and Mahalia Prater Fahey for help with data analysis. This research was supported in part by the National Science Foundation (Graduate Research Fellowship DGE 1144152), Harvard Catalyst (Pilot Grant UL1 TR001102 ), the National Institutes of Health (NIH shared instrumentation grant S10OD020039 ), and the Sackler Scholar Programme in Psychobiology . We thank Barbara Braams, Juliet Davidow, Gina Falcone, Laurel Kordyban, Erik Nook, Katherine Powers, Alexandra Rodman, Maheen Shermohammed, and Constanza Vidal Bustamante for assistance with data collection. We thank Tammy Moran, Ross Mair, and the Center for Brain Science at Harvard University for technical assistance during data collection. We thank Erik Kastman, and Mahalia Prater Fahey for help with data analysis. This research was supported in part by the National Science Foundation (Graduate Research Fellowship DGE 1144152), Harvard Catalyst (Pilot Grant UL1 TR001102), the National Institutes of Health (NIH shared instrumentation grant S10OD020039), and the Sackler Scholar Programme in Psychobiology.
Keywords
- Adolescence
- Cognitive control
- Learning
- Prefrontal cortex
- Striatum
- Value
ASJC Scopus subject areas
- Cognitive Neuroscience