The relationship of sleep with temperature and metabolic rate in a hibernating primate.

The relationship of sleep with temperature and metabolic rate in a hibernating primate.

<h4>Study objectives</h4>It has long been suspected that sleep is important for regulating body temperature and metabolic-rate. Hibernation, a state of acute hypothermia and reduced metabolic-rate, offers a promising system for investigating those relationships. Prior studies in hibernat...

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Main Authors: Andrew D Krystal, Bobby Schopler, Susanne Kobbe, Cathy Williams, Hajanirina Rakatondrainibe, Anne D Yoder, Peter Klopfer
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2013-01-01
Series:PLoS ONE
Online Access:https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/24023713/pdf/?tool=EBI
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spelling doaj-1947bfb68b1c461aa6dba86355924da52021-03-03T22:55:59ZengPublic Library of Science (PLoS)PLoS ONE1932-62032013-01-0189e6991410.1371/journal.pone.0069914The relationship of sleep with temperature and metabolic rate in a hibernating primate.Andrew D KrystalBobby SchoplerSusanne KobbeCathy WilliamsHajanirina RakatondrainibeAnne D YoderPeter Klopfer<h4>Study objectives</h4>It has long been suspected that sleep is important for regulating body temperature and metabolic-rate. Hibernation, a state of acute hypothermia and reduced metabolic-rate, offers a promising system for investigating those relationships. Prior studies in hibernating ground squirrels report that, although sleep occurs during hibernation, it manifests only as non-REM sleep, and only at relatively high temperatures. In our study, we report data on sleep during hibernation in a lemuriform primate, Cheirogaleus medius. As the only primate known to experience prolonged periods of hibernation and as an inhabitant of more temperate climates than ground squirrels, this animal serves as an alternative model for exploring sleep temperature/metabolism relationships that may be uniquely relevant to understanding human physiology.<h4>Measurements and results</h4>We find that during hibernation, non-REM sleep is absent in Cheirogaleus. Rather, periods of REM sleep occur during periods of relatively high ambient temperature, a pattern opposite of that observed in ground squirrels. Like ground squirrels, however, EEG is marked by ultra-low voltage activity at relatively low metabolic-rates.<h4>Conclusions</h4>These findings confirm a sleep-temperature/metabolism link, though they also suggest that the relationship of sleep stage with temperature/metabolism is flexible and may differ across species or mammalian orders. The absence of non-REM sleep suggests that during hibernation in Cheirogaleus, like in the ground squirrel, the otherwise universal non-REM sleep homeostatic response is greatly curtailed or absent. Lastly, ultra-low voltage EEG appears to be a cross-species marker for extremely low metabolic-rate, and, as such, may be an attractive target for research on hibernation induction.https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/24023713/pdf/?tool=EBI
collection DOAJ
language English
format Article
sources DOAJ
author Andrew D Krystal
Bobby Schopler
Susanne Kobbe
Cathy Williams
Hajanirina Rakatondrainibe
Anne D Yoder
Peter Klopfer
spellingShingle Andrew D Krystal
Bobby Schopler
Susanne Kobbe
Cathy Williams
Hajanirina Rakatondrainibe
Anne D Yoder
Peter Klopfer
The relationship of sleep with temperature and metabolic rate in a hibernating primate.
PLoS ONE
author_facet Andrew D Krystal
Bobby Schopler
Susanne Kobbe
Cathy Williams
Hajanirina Rakatondrainibe
Anne D Yoder
Peter Klopfer
author_sort Andrew D Krystal
title The relationship of sleep with temperature and metabolic rate in a hibernating primate.
title_short The relationship of sleep with temperature and metabolic rate in a hibernating primate.
title_full The relationship of sleep with temperature and metabolic rate in a hibernating primate.
title_fullStr The relationship of sleep with temperature and metabolic rate in a hibernating primate.
title_full_unstemmed The relationship of sleep with temperature and metabolic rate in a hibernating primate.
title_sort relationship of sleep with temperature and metabolic rate in a hibernating primate.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2013-01-01
description <h4>Study objectives</h4>It has long been suspected that sleep is important for regulating body temperature and metabolic-rate. Hibernation, a state of acute hypothermia and reduced metabolic-rate, offers a promising system for investigating those relationships. Prior studies in hibernating ground squirrels report that, although sleep occurs during hibernation, it manifests only as non-REM sleep, and only at relatively high temperatures. In our study, we report data on sleep during hibernation in a lemuriform primate, Cheirogaleus medius. As the only primate known to experience prolonged periods of hibernation and as an inhabitant of more temperate climates than ground squirrels, this animal serves as an alternative model for exploring sleep temperature/metabolism relationships that may be uniquely relevant to understanding human physiology.<h4>Measurements and results</h4>We find that during hibernation, non-REM sleep is absent in Cheirogaleus. Rather, periods of REM sleep occur during periods of relatively high ambient temperature, a pattern opposite of that observed in ground squirrels. Like ground squirrels, however, EEG is marked by ultra-low voltage activity at relatively low metabolic-rates.<h4>Conclusions</h4>These findings confirm a sleep-temperature/metabolism link, though they also suggest that the relationship of sleep stage with temperature/metabolism is flexible and may differ across species or mammalian orders. The absence of non-REM sleep suggests that during hibernation in Cheirogaleus, like in the ground squirrel, the otherwise universal non-REM sleep homeostatic response is greatly curtailed or absent. Lastly, ultra-low voltage EEG appears to be a cross-species marker for extremely low metabolic-rate, and, as such, may be an attractive target for research on hibernation induction.
url https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/24023713/pdf/?tool=EBI
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