Abstract
Adaptive decision making requires agency, knowledge that actions produce particular outcomes. For well-practiced routines, agency is relinquished in favor of habit. Here, we asked how dorsomedial striatum D1(+) and D2/A2A(+) neurons contribute to agency and habit. We imaged calcium activity of these neurons as mice learned to lever press with agency and formed habits with overtraining. Whereas many D1(+) neurons stably encoded actions throughout learning and developed encoding of reward outcomes, A2A(+) neurons reorganized their encoding of actions from initial action-outcome learning to habit formation. Chemogenetic manipulations indicated that both D1(+) and A2A(+) neurons support action-outcome learning, but only D1(+) neurons enable the use of such agency for adaptive, goal-directed decision making. These data reveal coordinated dorsomedial striatum D1(+) and A2A(+) function for the development of agency, cell-type specific stability and reorganization underlying agency and habit, and important insights into the neuronal circuits of how we learn and decide.