Kv4 channels generate A‐type current known to regulate neuronal excitability. Its role in processing timing information is understudied, especially in the auditory system where temporal information is crucial for hearing. In the cochlear nucleus, principal bushy neurons are specialized for temporal processing with distinct biophysical properties owing to their expression of various voltage‐gated ion channels. Previous studies reported conflicting information regarding the expression and potential role of Kv4 channels in these neurons. We explored these questions using electrophysiology in CBA/CaJ mice of either sex. A‐type current was isolated from 88% of bushy neurons using Kv4 channel‐selective blocker Jingzhaotoxin‐X (JZ‐X), which increased the intrinsic excitability of bushy neurons without altering their synaptic input. During high‐rate activity, JZ‐X treatment significantly increased the spike jitter and reduced the firing threshold of bushy neurons. In old mice, A‐type current in bushy neurons reduced in magnitude but maintained current density, accompanied by decreased membrane surface area. In contrast, TEA‐sensitive Kv3 current reduced in both magnitude and current density, indicative of a greater contribution to the altered biophysical properties of bushy neurons during ageing. Our findings suggest that Kv4 channels play significant roles in regulating neuronal excitability and improving the temporal processing of bushy neurons. Such function is likely retained with age and is not the primary mechanism driving compromised temporal processing under age‐related hearing loss.
imageKey points
Most bushy neurons of the cochlear nucleus exhibit Kv4‐mediated A‐type current.
A‐type current regulates neuronal excitability of bushy neurons without contributing to the synaptic transmission at the endbulb of Held.
A‐type current increases the firing threshold and improves the temporal precision of spikes in bushy neurons during high‐rate activity.
A‐type current reduces peak amplitude in bushy neurons during ageing but maintains current density.
Decreased Kv3 current, rather than Kv4 current, likely play more significant roles in altering the biophysical properties of bushy neurons during ageing, contributing to compromised temporal processing during age‐related hearing loss.