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1. Rapid State-Dependent Alteration in K v 3 Channel Availability Drives Flexible Synaptic Signaling Dependent on Somatic Subthreshold Depolarization.

Author

Rowan MJM and Christie JM

Subjects

Animals, Axons metabolism, Axons physiology, Calcium metabolism, Cerebellum metabolism, Cerebellum physiology, Interneurons metabolism, Interneurons physiology, Mice, Neurons metabolism, Neurons physiology, Patch-Clamp Techniques, Potassium Channels metabolism, Presynaptic Terminals physiology, Protein Kinase C metabolism, Synaptic Transmission physiology, Action Potentials physiology, Presynaptic Terminals metabolism, Shaw Potassium Channels metabolism, Signal Transduction physiology, Synapses metabolism, Synapses physiology

Abstract

In many neurons, subthreshold depolarization in the soma can transiently increase action-potential (AP)-evoked neurotransmission via analog-to-digital facilitation. The mechanisms underlying this form of short-term synaptic plasticity are unclear, in part, due to the relative inaccessibility of the axon to direct physiological interrogation. Using voltage imaging and patch-clamp recording from presynaptic boutons of cerebellar stellate interneurons, we observed that depolarizing somatic potentials readily spread into the axon, resulting in AP broadening, increased spike-evoked Ca 2+ entry, and enhanced neurotransmission strength. K v 3 channels, which drive AP repolarization, rapidly inactivated upon incorporation of K v 3.4 subunits. This leads to fast susceptibility to depolarization-induced spike broadening and analog facilitation independent of Ca 2+ -dependent protein kinase C signaling. The spread of depolarization into the axon was attenuated by hyperpolarization-activated currents (I h currents) in the maturing cerebellum, precluding analog facilitation. These results suggest that analog-to-digital facilitation is tempered by development or experience in stellate cells., (Copyright © 2017 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2017