Global Research Center(GRC)早稲田大学 研究活動 Research Activities

δ2-Protocadherins organize parallel indirect basal ganglia circuits (Published in Science Advances, July, 2026)

Journal Title
/掲載ジャーナル名
Science Advances
Publication Year and Month
/掲載年月
July, 2026
Paper Title
/論文タイトル
δ2-Protocadherins organize parallel indirect basal ganglia circuits
DOI
/論文DOI
10.64898/2025.12.13.694147 
 Author of Waseda University
/本学の著者
HOSHINA, Naosuke(Assistant Professor(non-tenure-track), Affiliated organization, Waseda Institute for Advanced Study):Lead Author
Related Websites
/関連Web
Abstract
/抄録

The basal ganglia (BG) contain multiple parallel neural circuits, each of which may control different behaviors. However, how the distinct parallel BG circuits are molecularly organized is not known. Here we show that two δ2-protocadherins (PCDHs), PCDH17 and PCDH10, which are homophilic cell-adhesion molecules, establish and define two distinct indirect BG circuits that regulate different behaviors. PCDH17 and PCDH10 are expressed in a complementary expression pattern in the BG, anatomically defining two parallel indirect BG connections. Indirect pathway-specific Pcdh17 and Pcdh10 conditional knockout (cKO) mice show impaired establishment of the indirect BG circuits in a region-preferential manner. Finally, the Pcdh17-cKO mice show defects in task learning, while the Pcdh10-cKO mice show defects in motor/sensory habituation. These results identify PCDH17 and PCDH10 as the molecular organizers for two distinct indirect BG circuits regulating different behaviors and reveal the molecular mechanisms for organizing parallel BG circuits.

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