Non-REM and REM/paradoxical sleep dynamics across phylogeny
All animals carefully studied sleep, suggesting that sleep as a behavioral state exists in all animal life. Such evolutionary maintenance of an otherwise vulnerable period of environmental detachment suggests that sleep must be integral in fundamental biological needs. Despite over a century of rese...
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| Published in | Current opinion in neurobiology Vol. 71; pp. 44 - 51 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
England
Elsevier Ltd
01.12.2021
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0959-4388 1873-6882 1873-6882 |
| DOI | 10.1016/j.conb.2021.08.004 |
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| Abstract | All animals carefully studied sleep, suggesting that sleep as a behavioral state exists in all animal life. Such evolutionary maintenance of an otherwise vulnerable period of environmental detachment suggests that sleep must be integral in fundamental biological needs. Despite over a century of research, the knowledge of what sleep does at the tissue, cellular or molecular levels remain cursory. Currently, sleep is defined based on behavioral criteria and physiological measures rather than at the cellular or molecular level. Physiologically, sleep has been described as two main states, non-rapid eye moment (NREM) and REM/paradoxical sleep (PS), which are defined in the neocortex by synchronous oscillations and paradoxical wake-like activity, respectively. For decades, these two sleep states were believed to be defining characteristics of only mammalian and avian sleep. Recent work has revealed slow oscillation, silencing, and paradoxical/REM-like activities in reptiles, fish, flies, worms, and cephalopods suggesting that these sleep dynamics and associated physiological states may have emerged early in animal evolution. Here, we discuss these recent developments supporting the conservation of neural dynamics (silencing, oscillation, paradoxical activity) of sleep states across phylogeny.
•Quiescence and sensory gating epitomize behavioral sleep in all animals.•Common neural features of sleep exist from mammals to insects, including silencing, oscillations, wake-like activity.•Animals lacking a centralized brain have been shown to sleep, indicating that the need for sleep predates cephalization. |
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| AbstractList | All animals carefully studied sleep, suggesting that sleep as a behavioral state exists in all animal life. Such evolutionary maintenance of an otherwise vulnerable period of environmental detachment suggests that sleep must be integral in fundamental biological needs. Despite over a century of research, the knowledge of what sleep does at the tissue, cellular or molecular levels remain cursory. Currently, sleep is defined based on behavioral criteria and physiological measures rather than at the cellular or molecular level. Physiologically, sleep has been described as two main states, non-rapid eye moment (NREM) and REM/paradoxical sleep (PS), which are defined in the neocortex by synchronous oscillations and paradoxical wake-like activity, respectively. For decades, these two sleep states were believed to be defining characteristics of only mammalian and avian sleep. Recent work has revealed slow oscillation, silencing, and paradoxical/REM-like activities in reptiles, fish, flies, worms, and cephalopods suggesting that these sleep dynamics and associated physiological states may have emerged early in animal evolution. Here, we discuss these recent developments supporting the conservation of neural dynamics (silencing, oscillation, paradoxical activity) of sleep states across phylogeny.
•Quiescence and sensory gating epitomize behavioral sleep in all animals.•Common neural features of sleep exist from mammals to insects, including silencing, oscillations, wake-like activity.•Animals lacking a centralized brain have been shown to sleep, indicating that the need for sleep predates cephalization. All animals carefully studied sleep, suggesting that sleep as a behavioral state exists in all animal life. Such evolutionary maintenance of an otherwise vulnerable period of environmental detachment suggests that sleep must be integral in fundamental biological needs. Despite over a century of research, the knowledge of what sleep does at tissue, cellular or molecular levels remain cursory. Currently, sleep is defined based on behavioral criteria and physiological measures, rather than at the cellular or molecular level. Physiologically, sleep has been described as two main states: Non-REM and REM/Paradoxical sleep, which are defined in the neocortex by synchronous oscillations and paradoxical wake-like activity, respectively. For decades, these two sleep states were believed to be defining characteristics of only mammalian and avian sleep. Recent work has revealed slow oscillation, silencing and paradoxical/REM like activities in reptiles, fish, flies, worms and cephalopods suggesting that these sleep dynamics and associated physiological states may have emerged early in animal evolution. Here, we discuss these recent developments supporting the conservation of neural dynamics (silencing, oscillation, paradoxical activity) of sleep states across phylogeny. All animals carefully studied sleep, suggesting that sleep as a behavioral state exists in all animal life. Such evolutionary maintenance of an otherwise vulnerable period of environmental detachment suggests that sleep must be integral in fundamental biological needs. Despite over a century of research, the knowledge of what sleep does at the tissue, cellular or molecular levels remain cursory. Currently, sleep is defined based on behavioral criteria and physiological measures rather than at the cellular or molecular level. Physiologically, sleep has been described as two main states, non-rapid eye moment (NREM) and REM/paradoxical sleep (PS), which are defined in the neocortex by synchronous oscillations and paradoxical wake-like activity, respectively. For decades, these two sleep states were believed to be defining characteristics of only mammalian and avian sleep. Recent work has revealed slow oscillation, silencing, and paradoxical/REM-like activities in reptiles, fish, flies, worms, and cephalopods suggesting that these sleep dynamics and associated physiological states may have emerged early in animal evolution. Here, we discuss these recent developments supporting the conservation of neural dynamics (silencing, oscillation, paradoxical activity) of sleep states across phylogeny. All animals carefully studied sleep, suggesting that sleep as a behavioral state exists in all animal life. Such evolutionary maintenance of an otherwise vulnerable period of environmental detachment suggests that sleep must be integral in fundamental biological needs. Despite over a century of research, the knowledge of what sleep does at the tissue, cellular or molecular levels remain cursory. Currently, sleep is defined based on behavioral criteria and physiological measures rather than at the cellular or molecular level. Physiologically, sleep has been described as two main states, non-rapid eye moment (NREM) and REM/paradoxical sleep (PS), which are defined in the neocortex by synchronous oscillations and paradoxical wake-like activity, respectively. For decades, these two sleep states were believed to be defining characteristics of only mammalian and avian sleep. Recent work has revealed slow oscillation, silencing, and paradoxical/REM-like activities in reptiles, fish, flies, worms, and cephalopods suggesting that these sleep dynamics and associated physiological states may have emerged early in animal evolution. Here, we discuss these recent developments supporting the conservation of neural dynamics (silencing, oscillation, paradoxical activity) of sleep states across phylogeny.All animals carefully studied sleep, suggesting that sleep as a behavioral state exists in all animal life. Such evolutionary maintenance of an otherwise vulnerable period of environmental detachment suggests that sleep must be integral in fundamental biological needs. Despite over a century of research, the knowledge of what sleep does at the tissue, cellular or molecular levels remain cursory. Currently, sleep is defined based on behavioral criteria and physiological measures rather than at the cellular or molecular level. Physiologically, sleep has been described as two main states, non-rapid eye moment (NREM) and REM/paradoxical sleep (PS), which are defined in the neocortex by synchronous oscillations and paradoxical wake-like activity, respectively. For decades, these two sleep states were believed to be defining characteristics of only mammalian and avian sleep. Recent work has revealed slow oscillation, silencing, and paradoxical/REM-like activities in reptiles, fish, flies, worms, and cephalopods suggesting that these sleep dynamics and associated physiological states may have emerged early in animal evolution. Here, we discuss these recent developments supporting the conservation of neural dynamics (silencing, oscillation, paradoxical activity) of sleep states across phylogeny. |
| Author | Mourrain, Philippe Wang, Gordon X. Jaggard, James B. |
| AuthorAffiliation | 1. Department of Psychiatry and Behavioral Sciences, Stanford University, Stanford, CA, USA 2. Wu Tsai Neuroscience Institute, Stanford University, Stanford, CA, USA 3. INSERM 1024, Ecole Normale Supérieure, Paris, France |
| AuthorAffiliation_xml | – name: 1. Department of Psychiatry and Behavioral Sciences, Stanford University, Stanford, CA, USA – name: 3. INSERM 1024, Ecole Normale Supérieure, Paris, France – name: 2. Wu Tsai Neuroscience Institute, Stanford University, Stanford, CA, USA |
| Author_xml | – sequence: 1 givenname: James B. surname: Jaggard fullname: Jaggard, James B. organization: Department of Psychiatry and Behavioral Sciences, Stanford University, Stanford, CA, USA – sequence: 2 givenname: Gordon X. surname: Wang fullname: Wang, Gordon X. organization: Department of Psychiatry and Behavioral Sciences, Stanford University, Stanford, CA, USA – sequence: 3 givenname: Philippe surname: Mourrain fullname: Mourrain, Philippe email: mourrain@stanford.edu organization: Department of Psychiatry and Behavioral Sciences, Stanford University, Stanford, CA, USA |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/34583217$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_1093_sleep_zsae279 crossref_primary_10_1093_sleepadvances_zpae040 crossref_primary_10_3390_brainsci13081201 crossref_primary_10_1177_10738584241309850 crossref_primary_10_1126_sciadv_adj4399 crossref_primary_10_1007_s44337_025_00236_6 crossref_primary_10_1038_s41746_024_01115_7 crossref_primary_10_7554_eLife_88198_3 crossref_primary_10_3390_clockssleep5040046 crossref_primary_10_1126_science_abp8852 crossref_primary_10_7554_eLife_88198 crossref_primary_10_1038_s41467_022_35577_8 crossref_primary_10_1242_jeb_247138 |
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