Light-induced suppression of the rat circadian system

• Published in: The American journal of physiology Vol. 268; no. 5 Pt 2; p. R1111
• Main Authors: Deprés-Brummer, P, Lévi, F, Metzger, G, Touitou, Y
• Format: Journal Article
• Language: English
• Published: United States 01.05.1995
• Subjects: Animals; Body Temperature; Circadian Rhythm - radiation effects; Darkness; Light; Male; Melatonin - blood; Motor Activity; Photoperiod; Rats; Rats, Sprague-Dawley
• ISSN: 0002-9513
• DOI: 10.1152/ajpregu.1995.268.5.r1111

In a constant environment, circadian rhythms persist with slightly altered period lengths. Results of studies with continuous light exposure are less clear, because of short exposure durations and single-variable monitoring. This study sought to characterize properties of the oscillator(s) controlling the rat's circadian system by monitoring both body temperature and locomotor activity. We observed that prolonged exposure of male Sprague-Dawley rats to continuous light (LL) systematically induced complete suppression of body temperature and locomotor activity circadian rhythms and their replacement by ultradian rhythms. This was preceded by a transient loss of coupling between both functions. Continuous darkness (DD) restored circadian synchronization of temperature and activity circadian rhythms within 1 wk. The absence of circadian rhythms in LL coincided with a mean sixfold decrease in plasma melatonin and a marked dampening but no abolition of its circadian rhythmicity. Restoration of temperature and activity circadian rhythms in DD was associated with normalization of melatonin rhythm. These results demonstrated a transient internal desynchronization of two simultaneously monitored functions in the rat and suggested the existence of two or more circadian oscillators. Such a hypothesis was further strengthened by the observation of a circadian rhythm in melatonin, despite complete suppression of body temperature and locomotor activity rhythms. This rat model should be useful for investigating the physiology of the circadian timing system as well as to identify agents and schedules having specific pharmacological actions on this system.