Abstract
Neural activity exhibits oscillations, bursts, and resonance, enhancing responsiveness at preferential frequencies. For example, theta-frequency bursting and resonance in granule cells facilitate synaptic transmission and plasticity mechanisms at the input stage of the cerebellar cortex. However, whether theta-frequency bursting of Purkinje cells is involved in generating rhythmic behavior has remained neglected. We recorded and optogenetically modulated the simple and complex spike activity of Purkinje cells while monitoring whisker movements with a high-speed camera of awake, head-fixed mice. During spontaneous whisking, both simple spike activity and whisker movement exhibit peaks within the theta band. Eliciting either simple or complex spikes at frequencies ranging from 0.5 to 28 Hz, we found that 8 Hz is the preferred frequency around which the largest movement is induced. Interestingly, oscillatory whisker movements at 8 Hz were also generated when simple spike bursting was induced at 2 and 4 Hz, but never via climbing fiber stimulation. These results indicate that 8 Hz is the resonant frequency at which the cerebellar-whisker circuitry produces rhythmic whisking.
| Original language | English |
|---|---|
| Article number | 1831 |
| Journal | Biomedicines |
| Volume | 10 |
| Issue number | 8 |
| Early online date | 29 Jul 2022 |
| DOIs | |
| Publication status | Published - Aug 2022 |
Bibliographical note
Funding Information:Support was provided by ERC-Adv, ERC-PoC, EU-LISTEN, Medical NeuroDelta, NWO-ALW, 18 Zon-Mw, Albinism NIN-Friend Foundation and INTENSE NWO-LSH (C.I.D.Z.); NWO-VENI (J.J.W.); China Scholarship 19 Concil (#201907720111; P.Z.).
Publisher Copyright: © 2022 by the authors.