Signed and unsigned reward prediction errors dynamically enhance learning and memory

Memory helps guide behavior, but which experiences from the past are prioritized? Classic models of learning posit that events associated with unpredictable outcomes as well as, paradoxically, predictable outcomes, deploy more attention and learning for those events. Here, we test reinforcement learning and subsequent memory for those events, and treat signed and unsigned reward prediction errors (RPEs), experienced at the reward-predictive cue or reward outcome, as drivers of these two seemingly contradictory signals. By fitting reinforcement learning models to behavior, we find that both RPEs contribute to learning by modulating a dynamically changing learning rate. We further characterize the effects of these RPE signals on memory and show that both signed and unsigned RPEs enhance memory, in line with midbrain dopamine and locus-coeruleus modulation of hippocampal plasticity, thereby reconciling separate findings in the literature.

Automated summary

The study suggests that events associated with unpredictable and predictable outcomes receive more attention and learning. By testing reinforcement learning and reward prediction errors on subsequent memory for these events, it is found that both signed and unsigned reward prediction errors influence learning, and the modulation of midbrain dopamine and locus-coeruleus enhance memory.