Poster preview
ePoster
SLEEP-DEPENDENT INFRASLOW RHYTHMS ARE EVOLUTIONARILY CONSERVED ACROSS REPTILES AND MAMMALS
Antoine Bergeland 16 co-authors
Physics for Medicine Paris
FENS Forum 2026 (2026)
Barcelona, Spain
Board PS03-08AM-605
Presentation
Date TBA
Board: PS03-08AM-605
Event Information
Poster Board
PS03-08AM-605
Poster
View posterAbstract
Comparative studies are expanding our knowledge of the expression and evolution of sleep. However,
substantial gaps remain in our understanding of how and when sleep evolved in lizards, mammals, and birds,
the vertebrate classes comprising the clade Amniota. By recording brain activity in seven lizard species, as
well as in humans, rats, and pigeons, we demonstrate the conservation of an infraslow brain rhythm during
sleep. When eye movements, muscle tone, heart rate, and breathing rate are considered across lizards, in
addition to skin brightness in chameleons, we find a tight coupling of these measures with the infraslow
brain rhythm. Moreover, the similarly tight coupling of the infraslow rhythm with pulsatile changes in
cerebrovascular volume in bearded dragons and mice provides the most compelling evidence that the
infraslow rhythm is highly conserved across amniotes, suggesting that this rhythm was expressed in the
common ancestor. That the infraslow-cerebrovascular coupling in mice is specific to NREM sleep is
inconsistent with the notion that the infraslow rhythm in lizards is a “REM-like” state. Accordingly, in a
time of increased attention to sleep across vertebrates and invertebrates, we encourage greater caution when
considering the existence of specific mammal-defined sleep states in distantly related groups.
substantial gaps remain in our understanding of how and when sleep evolved in lizards, mammals, and birds,
the vertebrate classes comprising the clade Amniota. By recording brain activity in seven lizard species, as
well as in humans, rats, and pigeons, we demonstrate the conservation of an infraslow brain rhythm during
sleep. When eye movements, muscle tone, heart rate, and breathing rate are considered across lizards, in
addition to skin brightness in chameleons, we find a tight coupling of these measures with the infraslow
brain rhythm. Moreover, the similarly tight coupling of the infraslow rhythm with pulsatile changes in
cerebrovascular volume in bearded dragons and mice provides the most compelling evidence that the
infraslow rhythm is highly conserved across amniotes, suggesting that this rhythm was expressed in the
common ancestor. That the infraslow-cerebrovascular coupling in mice is specific to NREM sleep is
inconsistent with the notion that the infraslow rhythm in lizards is a “REM-like” state. Accordingly, in a
time of increased attention to sleep across vertebrates and invertebrates, we encourage greater caution when
considering the existence of specific mammal-defined sleep states in distantly related groups.
Recommended posters
BRAIN-STATE TRANSITIONS DURING BRUMATION
Koki Kotake, Zhiwen Zhou, Sho Yamaguchi, Yuta Otobe, Hikari Yoshitane, Hiroaki Norimoto
CONSERVED DREAM-RELATED NEURAL DYNAMICS OF PGO/P-WAVES DURING SLEEP
Khushi Parashar, Jonghun Lee, Insung Joo, Chun Kee Chung, Ki-Young Jung, Jaekyung Kim
LINKING PRESYNAPTIC PLASTICITY TO SLEEP HOMEOSTASIS AND EVOLUTION
Jiwon Jeong, Martin Müller
EXPLORING THE LAMINAR ORGANIZATION OF AUDITORY PROCESSING DURING SLEEP STATES AND WAKEFULNESS
Eleni Ioanna Moysiadou, Allan Muller, Thomas Andrillon, Brice Bathellier
THE CLAUSTRUM: A CENTRAL PATTERN GENERATOR INVOLVED IN SLEEP RHYTHMS?
Ambre Ledoux, Marc Pananceau, Kiyan Galimard, Gilles Ouanounou, Thierry Bal
STRUCTURE AND CONTENT OF INTERNALLY GENERATED SENSORY CORTICAL ACTIVITY ACROSS SLEEP STATES
Albert Estop, Yannick Bollmann, Adam Ranson