Headpost Surgery for in vivo Electrophysiological Recording in the Mouse Inferior Colliculus during Locomotion

Abstract

The inferior colliculus (IC) is a critical midbrain integration center for auditory and nonauditory information. Although much is known about the response properties of the IC neurons to auditory stimuli, how the IC neural circuits function during movement such as locomotion remains poorly understood. Mice offer a valuable model in this respect, but previous studies of the mouse IC were performed in anesthetized or restrained preparations, making it difficult to study the IC function during behavior. Here we describe a neural recording protocol for the mouse IC in which mice are head-fixed, but can run on a passive treadmill. Mice first receive a headpost surgery, and become habituated to head-fixing while being on a treadmill. Following a few days of habituation, neural recordings of the IC neuron activity are performed. The neural activity can be compared across different behavioral conditions, such as standing still versus running on a treadmill. We describe how to overcome the challenges of headpost surgery for awake IC recording, presented by the location and overlying bones. This protocol allows investigations of the IC function in behaving mice, while allowing precise stimulus control and the use of recording methods similar to those for anesthetized preparations.