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Distributional coding of associative learning in discrete populations of midbrain dopamine neurons.

Cell reports (2024-04-07)
Riccardo Avvisati, Anna-Kristin Kaufmann, Callum J Young, Gabriella E Portlock, Sophie Cancemi, Rui Ponte Costa, Peter J Magill, Paul D Dodson
RESUMEN

Midbrain dopamine neurons are thought to play key roles in learning by conveying the difference between expected and actual outcomes. Recent evidence suggests diversity in dopamine signaling, yet it remains poorly understood how heterogeneous signals might be organized to facilitate the role of downstream circuits mediating distinct aspects of behavior. Here, we investigated the organizational logic of dopaminergic signaling by recording and labeling individual midbrain dopamine neurons during associative behavior. Our findings show that reward information and behavioral parameters are not only heterogeneously encoded but also differentially distributed across populations of dopamine neurons. Retrograde tracing and fiber photometry suggest that populations of dopamine neurons projecting to different striatal regions convey distinct signals. These data, supported by computational modeling, indicate that such distributional coding can maximize dynamic range and tailor dopamine signals to facilitate specialized roles of different striatal regions.

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Monoclonal Anti-Tyrosine Hydroxylase antibody produced in mouse, clone TH-16, ascites fluid
Sigma-Aldrich
Anti-ALDH1A1 antibody produced in rabbit, Prestige Antibodies® Powered by Atlas Antibodies, affinity isolated antibody, buffered aqueous glycerol solution