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1. Arvicanthis ansorgei, a Novel Model for the Study of Sleep and Waking in Diurnal Rodents

Author

Dominique Sage-Ciocca, Jeffrey Hubbard, Claire-Marie Gropp, Ludivine Robin-Choteau, Patrice Bourgin, Caroline Allemann, L. Calvel, Sophie Reibel, and Elisabeth Ruppert

Subjects

Male, medicine.medical_specialty, Time Factors, Light, Sleep, REM, Nocturnal, Non-rapid eye movement sleep, Nocturnality, Novel Model for the Study of Sleep and Waking in Diurnal Rodents, Physiology (medical), Internal medicine, medicine, Animals, Homeostasis, Diurnality, Circadian rhythm, Wakefulness, Electromyography, Reproducibility of Results, Electroencephalography, Darkness, Sleep in non-human animals, Circadian Rhythm, Muridae, Electrooculography, Sleep deprivation, Crepuscular, Endocrinology, Models, Animal, Sleep Deprivation, Neurology (clinical), Cues, medicine.symptom, Sleep, Psychology

Abstract

Study objectives Sleep neurobiology studies use nocturnal species, mainly rats and mice. However, because their daily sleep/wake organization is inverted as compared to humans, a diurnal model for sleep studies is needed. To fill this gap, we phenotyped sleep and waking in Arvicanthis ansorgei, a diurnal rodent widely used for the study of circadian rhythms. Design Video-electroencephalogram (EEG), electromyogram (EMG), and electrooculogram (EOG) recordings. Setting Rodent sleep laboratory. Participants Fourteen male Arvicanthis ansorgei, aged 3 mo. Interventions 12 h light (L):12 h dark (D) baseline condition, 24-h constant darkness, 6-h sleep deprivation. Measurements and results Wake and rapid eye movement (REM) sleep showed similar electrophysiological characteristics as nocturnal rodents. On average, animals spent 12.9 h ± 0.4 awake per 24-h cycle, of which 6.88 h ± 0.3 was during the light period. NREM sleep accounted for 9.63 h ± 0.4, which of 5.13 h ± 0.2 during dark period, and REM sleep for 89.9 min ± 6.7, which of 52.8 min ± 4.4 during dark period. The time-course of sleep and waking across the 12 h light:12 h dark was overall inverted to that observed in rats or mice, though with larger amounts of crepuscular activity at light and dark transitions. A dominant crepuscular regulation of sleep and waking persisted under constant darkness, showing the lack of a strong circadian drive in the absence of clock reinforcement by external cues, such as a running wheel. Conservation of the homeostatic regulation was confirmed with the observation of higher delta power following sustained waking periods and a 6-h sleep deprivation, with subsequent decrease during recovery sleep. Conclusions Arvicanthis ansorgei is a valid diurnal rodent model for studying the regulatory mechanisms of sleep and so represents a valuable tool for further understanding the nocturnality/diurnality switch.

Published

2015