Selective innervation of subpopulations of striatal neurons by distinct sets of neurons of the external globus pallidus

The striatum, the primary input nucleus of the basal ganglia, contains diverse populations of projection neurons and interneurons, each with distinct roles in motor processing. The external globus pallidus contains distinct populations of inhibitory neurons that are highly interconnected with other regions of the basal ganglia. How pallidal neurons innervate different populations of striatal neurons is critical for our understanding of their role in motor processing. Here we use monosynaptic viral tracing in transgenic mice to quantitively define the organization of pallidostriatal connectivity. We show that FoxP2-expressing arkypallidal neurons provide the greatest input to the striatum, primarily targeting indirect pathway spiny projection neurons and cholinergic interneurons. In contrast, prototypic pallidal neurons, defined by Nkx2-1 expression, preferentially innervate parvalbumin- and somatostatin-expressing interneurons. These data reveal a structured and selective organization of pallidostriatal projections, suggesting that distinct classes of pallidal neurons modulate striatal circuits through complementary pathways. Mapping these connections is key to understanding how basal ganglia networks coordinate motor control.