TY - JOUR T1 - <em>In vivo</em> functional diversity of midbrain dopamine neurons within identified axonal projections JF - bioRxiv DO - 10.1101/624700 SP - 624700 AU - Navid Farassat AU - KauĂȘ M. Costa AU - Stefan Albert AU - Lora Kovacheva AU - Josef Shin AU - Mahalakshmi Somayaji AU - Gaby Schneider AU - Jochen Roeper Y1 - 2019/01/01 UR - http://biorxiv.org/content/early/2019/05/02/624700.abstract N2 - The functional diversity of midbrain dopamine (DA) neurons ranges across multiple scales, from differences in intrinsic properties and synaptic connectivity to selective task engagement in behaving animals. Distinct in vitro biophysical features of DA neurons have been associated with different axonal projection targets. However, it is unknown how this translates to different firing patterns of projection-defined DA subpopulations in the intact brain. We combined retrograde tracing with single-unit recording and juxtacellular labelling in mouse brain to create the first single cell-resolved in vivo functional topography of the midbrain DA system. We identified surprising differences in burst firing among those DA neurons projecting to dorsolateral striatum, which were organized along the medio-lateral substantia nigra (SN) axis. Furthermore, burst properties also differentiated DA neurons in the medial SN that projected either to dorsal or ventral striatum. In contrast, DA neurons projecting to lateral shell of nucleus accumbens displayed identical firing properties, irrespective of whether they were located in the SN or ventral tegmental area (VTA), thus breaching classical anatomical boundaries. Finally, we found robust differences in mean firing rates and pause durations among VTA DA neurons projecting to either lateral or medial shell of nucleus accumbens. Together, our data set establishes a high-resolution functional landscape of midbrain DA neurons, which will facilitate the identification of selective functions and pathophysiological changes within the midbrain DA system. ER -