The Effects of General Anaesthesia and Light on Behavioural Rhythms and GABAA Receptor Subunit Expression in the Mouse SCN

Janelle Chong,Guy R Warman,Matthew D M Pawley,James Frederick Cheeseman,Andrea Kwakowsky

doi:10.3390/clockssleep3030034

Janelle Chong, Guy R Warman + Show 3 more

Open Access

https://doi.org/10.3390/clockssleep3030034

Copy DOI

Journal: Clocks & Sleep	Publication Date: Sep 17, 2021
Citations: 2	License type: CC BY 4.0

Affiliation: University of Auckland, Massey University

Abstract

General anaesthesia (GA) is known to affect the circadian clock. However, the mechanisms that underlie GA-induced shifting of the clock are less well understood. Activation of γ-aminobutyric acid (GABA)-type A receptors (GABAAR) in the suprachiasmatic nucleus (SCN) can phase shift the clock and thus GABA and its receptors represent a putative pathway via which GA exerts its effect on the clock. Here, we investigated the concurrent effects of the inhalational anaesthetic, isoflurane, and light, on mouse behavioural locomotor rhythms and on α1, β3, and γ2 GABAAR subunit expression in the SCN of the mouse brain. Behavioural phase shifts elicited by exposure of mice to four hours of GA (2% isoflurane) and light (400 lux) (n = 60) were determined by recording running wheel activity rhythms in constant conditions (DD). Full phase response curves for the effects of GA + light on behavioural rhythms show that phase shifts persist in anaesthetized mice exposed to light. Daily variation was detected in all three GABAAR subunits in LD 12:12. The γ2 subunit expression was significantly increased following GA in DD (compared to light alone) at times of large behavioural phase delays. We conclude that the phase shifting effect of light on the mouse clock is not blocked by GA administration, and that γ2 may potentially be involved in the phase shifting effect of GA on the clock. Further analysis of GABAAR subunit expression in the SCN will be necessary to confirm its role.

Highlights

General anaesthesia (GA) is administered to well over a hundred million patients annually worldwide, and is an essential part of most major operations [1]
We have shown that GA can phase shift behavioural rhythms of honeybees (Apis mellifera) and Drosophila melanogaster in a time-dependent manner [6,8], and that these behavioural shifts are underpinned by changes in the expression of core clock genes
We describe the investigation of the effects of GA and light on the expression of GABA-type A receptor (GABAAR) subunits in the suprachiasmatic nucleus (SCN) to examine whether this neurotransmitter may be involved in GA-induced clock shifting

Summary

Introduction

General anaesthesia (GA) is administered to well over a hundred million patients annually worldwide, and is an essential part of most major operations [1]. There are, side effects of GA and one of these appears to be an effect on postoperative sleep and circadian rhythms [3]. Postoperative sleep disturbances are common in surgical patients and are known to have adverse effects on patient recovery [4,5]. Evidence has shown that GA can shift the circadian clock and this may directly contribute to the development of postoperative sleep disturbances [6]. The overarching goal of our work is to understand how GA affects the clock, and to find ways in which GA-induced clock shifts can be ameliorated. In order to achieve this goal, a thorough investigation of the effects of GA on the clock, the interaction of GA with known zeitgeber (such as light), and mechanisms that underlie GA-induced shifting of the clock is essential

Objectives

Methods

Results

Conclusion