TY - JOUR T1 - Phasic dopamine enhances the distinct decoding and perceived salience of stimuli JF - bioRxiv DO - 10.1101/771162 SP - 771162 AU - Lars-Lennart Oettl AU - Max Scheller AU - Sebastian Wieland AU - Franziska Haag AU - David Wolf AU - Cathrin Loeb AU - Namasivayam Ravi AU - Daniel Durstewitz AU - Roman Shusterman AU - Eleonora Russo AU - Wolfgang Kelsch Y1 - 2019/01/01 UR - http://biorxiv.org/content/early/2019/09/18/771162.abstract N2 - Subjects learn to assign value to stimuli that predict outcomes. Novelty, rewards or punishment evoke reinforcing phasic dopamine release from midbrain neurons to ventral striatum that mediates expected value and salience of stimuli in humans and animals. It is however not clear whether phasic dopamine release is sufficient to form distinct engrams that encode salient stimuli within these circuits. We addressed this question in awake mice. Evoked phasic dopamine induced plasticity selectively to the population encoding of coincidently presented stimuli and increased their distinctness from other stimuli. Phasic dopamine thereby enhanced the decoding of previously paired stimuli and increased their perceived salience. This dopamine-induced plasticity mimicked population coding dynamics of conditioned stimuli during reinforcement learning. These findings provide a network coding mechanism of how dopaminergic learning signals promote value assignment to stimulus representations. ER -