Transcriptional Diversity of Medium Spiny Neurons in the Primate Striatum

Abstract The striatum is the neural interface between dopamine reward signals and cortico-basal ganglia circuits responsible for value assignments, decisions, and actions. Medium spiny neurons (MSNs) make up the vast majority of striatal neurons and are traditionally classified as two distinct types: direct- and indirect-pathway MSNs. The direct- and indirect-pathway model has been useful for understanding some aspects of striatal functions, but it accounts for neither the anatomical heterogeneity, nor the functional diversity of the striatum. Here, we use single nucleus RNA-sequencing and Fluorescent In-Situ Hybridization to explore MSN diversity in the Rhesus macaque striatum. We identified MSN subtypes that correspond to the major subdivisions of the striatum. These include dorsal striatum subtypes associated with striosome and matrix compartments, as well as ventral striatum subtypes associated with the shell of the nucleus accumbens. We also describe a cell type that is anatomically restricted to “Neurochemically Unique Domains in the Accumbens and Putamen (NUDAPs)”. Together, these results help to advance nonhuman primate studies into the genomics era. The identified cell types provide a comprehensive blueprint for investigating cell type-specific information processing, and the differentially expressed genes lay a foundation for achieving cell type-specific transgenesis in the primate striatum.