Litcius/Paper detail

Reinforcement Learning during Adolescence in Rats

Neema Moin Afshar, Alex J. Keip, Jane R. Taylor, Daeyeol Lee, Stephanie M. Groman

2020Journal of Neuroscience23 citationsDOIOpen Access PDF

Abstract

The most dynamic period of postnatal brain development occurs during adolescence, the period between childhood and adulthood. Neuroimaging studies have observed morphologic and functional changes during adolescence, and it is believed that these changes serve to improve the functions of circuits that underlie decision-making. Direct evidence in support of this hypothesis, however, has been limited because most preclinical decision-making paradigms are not readily translated to humans. Here, we developed a reversal-learning protocol for the rapid assessment of adaptive choice behavior in dynamic environments in rats as young as postnatal day 30. A computational framework was used to elucidate the reinforcementlearning mechanisms that change in adolescence and into adulthood. Using a cross-sectional and longitudinal design, we provide the first evidence that value-based choice behavior in a reversal-learning task improves during adolescence in male and female Long-Evans rats and demonstrate that the increase in reversal performance is due to alterations in value updating for positive outcomes. Furthermore, we report that reversal-learning trajectories in adolescence reliably predicted reversal performance in adulthood. This novel behavioral protocol provides a unique platform for conducting biological and systems-level analyses of the neurodevelopmental mechanisms of decision-making.

Topics & Concepts

Reinforcement learningPsychologyReinforcementDevelopmental psychologyNeuroimagingNeuroscienceAdaptive behaviorProtocol (science)Task (project management)Cognitive psychologyMedicineArtificial intelligenceSocial psychologyComputer sciencePathologyManagementEconomicsAlternative medicineNeural dynamics and brain functionNeural and Behavioral Psychology StudiesMemory and Neural Mechanisms