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Topographic connectivity and cellular profiling reveal detailed input pathways and functionally distinct cell types in the subthalamic nucleus

Hyungju Jeon, Ho‐Jin Lee, Dae‐Hyuk Kwon, Jiwon Kim, Keiko Tanaka, Jang Soo Yook, Linqing Feng, Hye Ran Park, Yong Hoon Lim, Zang-Hee Cho, Sun Ha Paek, Jinhyun Kim

2022Cell Reports41 citationsDOIOpen Access PDF

Abstract

The subthalamic nucleus (STN) controls psychomotor activity and is an efficient therapeutic deep brain stimulation target in individuals with Parkinson's disease. Despite evidence indicating position-dependent therapeutic effects and distinct functions within the STN, the input circuit and cellular profile in the STN remain largely unclear. Using neuroanatomical techniques, we construct a comprehensive connectivity map of the indirect and hyperdirect pathways in the mouse STN. Our circuit- and cellular-level connectivities reveal a topographically graded organization with three types of indirect and hyperdirect pathways (external globus pallidus only, STN only, and collateral). We confirm consistent pathways into the human STN by 7 T MRI-based tractography. We identify two functional types of topographically distinct glutamatergic STN neurons (parvalbumin [PV+/-]) with synaptic connectivity from indirect and hyperdirect pathways. Glutamatergic PV+ STN neurons contribute to burst firing. These data suggest a complex interplay of information integration within the basal ganglia underlying coordinated movement control and therapeutic effects.

Topics & Concepts

Subthalamic nucleusNeuroscienceGlutamatergicDeep brain stimulationBiologyBasal gangliaGlobus pallidusParkinson's diseaseGlutamate receptorCentral nervous systemDiseaseMedicineReceptorPathologyBiochemistryNeurological disorders and treatmentsParkinson's Disease Mechanisms and TreatmentsAdvanced Neuroimaging Techniques and Applications