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Structural and functional evidence for ephaptic control of Purkinje cell spike timing by networks of molecular layer interneurons.
Aliya Norton, Elizabeth P Lackey, Sevgi Öztürk, Cole S Gaynor, Sean Ediger, Wei-Chung Allen Lee, Court A Hull, Wade G Regehr
Published: 202510.64898/2025.12.28.696768
Abstract
Open AccessAxon collaterals of type 1 molecular layer interneurons (MLI1s) contribute to pinceaux that engulf the initial segments of Purkinje cell (PC) axons and generate extracellular signals that ephaptically inhibit PCs. Here we show that a remarkably large number of MLI1s (~50) contribute to each pinceau, and that this allows networks of synchronously firing MLI1s to use ephaptic signals to control the precise timing of PC firing in vivo.