Spontaneous Recovery of Circadian Organization in Mice Lacking a Core Component of the Molecular Clockwork

Overview

Journal J Biol Rhythms

Date 2021 Dec 21

PMID 34931572

Citations 1

Authors

Jonathan P Riggle

Kenneth G Onishi

Jharnae A Love

Dana E Beach

Irving Zucker

Brian J Prendergast

Affiliations

Soon will be listed here.

Abstract

Circadian rhythms are generated by interlocked transcriptional-translational feedback loops of circadian clock genes and their protein products. Mice homozygous for a functional deletion in the Period-2 gene ( mice) exhibit short free-running circadian periods and eventually lose behavioral circadian rhythmicity in constant darkness (DD). We investigated mice in DD for several months and identified a categorical sex difference in the dependence on for maintenance of circadian rhythms. Nearly all female mice became circadian arrhythmic in DD, whereas free-running rhythms persisted in 37% of males. Remarkably, with extended testing, mice did not remain arrhythmic in DD, but after varying intervals spontaneously recovered robust, free-running circadian rhythms, with periods shorter than those expressed prior to arrhythmia. Spontaneous recovery was strikingly sex-biased, occurring in 95% of females and 33% of males. Castration in adulthood resulted in male mice exhibiting female-like levels of arrhythmia in DD, but did not affect spontaneous recovery. The circadian pacemaker of many gonad-intact males, but not females, can persist in DD for long intervals without a functional PER2 protein; their circadian clocks may be in an unstable equilibrium, incapable of sustaining persistent coherent circadian organization, resulting in transient cycles of circadian organization and arrhythmia.

Citing Articles

Modified Wavelet Analyses Permit Quantification of Dynamic Interactions Between Ultradian and Circadian Rhythms.

Riggle J, Kay L, Onishi K, Falk D, Smarr B, Zucker I J Biol Rhythms. 2022; 37(6):631-654.

PMID: 36380564 PMC: 11024927. DOI: 10.1177/07487304221128652.

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