Circadian rhythms in glucose and lipid metabolism in nocturnal and diurnal mammals

Most aspects of energy metabolism display clear variations during day and night. This daily rhythmicity of metabolic functions, including hormone release, is governed by a circadian system that consists of the master clock in the suprachiasmatic nuclei of the hypothalamus (SCN) and many secondary cl...

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Bibliographic Details
Published inMolecular and cellular endocrinology Vol. 418; pp. 74 - 88
Main Authors Kumar Jha, Pawan, Challet, Etienne, Kalsbeek, Andries
Format Journal Article
LanguageEnglish
Published Ireland Elsevier Ireland Ltd 15.12.2015
Subjects
adverse effects
Animals
Autonomic nervous system
Carbohydrate Metabolism - physiology
Circadian Clocks - physiology
Circadian rhythm
Circadian Rhythm - physiology
energy metabolism
fasting
genes
ghrelin
glucocorticoids
glucose
Glucose - metabolism
Humans
Hypothalamus
Hypothalamus - metabolism
leptin
Lipid metabolism
Lipid Metabolism - physiology
melatonin
mutation
neurosecretory system
photoperiod
rodents
Suprachiasmatic nucleus
Suprachiasmatic Nucleus - metabolism
work schedules
Suprachiasmatic nucleus
Glucose metabolism
Circadian rhythm
Lipid metabolism
Hypothalamus
Autonomic nervous system
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Abstract Most aspects of energy metabolism display clear variations during day and night. This daily rhythmicity of metabolic functions, including hormone release, is governed by a circadian system that consists of the master clock in the suprachiasmatic nuclei of the hypothalamus (SCN) and many secondary clocks in the brain and peripheral organs. The SCN control peripheral timing via the autonomic and neuroendocrine system, as well as via behavioral outputs. The sleep–wake cycle, the feeding/fasting rhythm and most hormonal rhythms, including that of leptin, ghrelin and glucocorticoids, usually show an opposite phase (relative to the light–dark cycle) in diurnal and nocturnal species. By contrast, the SCN clock is most active at the same astronomical times in these two categories of mammals. Moreover, in both species, pineal melatonin is secreted only at night. In this review we describe the current knowledge on the regulation of glucose and lipid metabolism by central and peripheral clock mechanisms. Most experimental knowledge comes from studies in nocturnal laboratory rodents. Nevertheless, we will also mention some relevant findings in diurnal mammals, including humans. It will become clear that as a consequence of the tight connections between the circadian clock system and energy metabolism, circadian clock impairments (e.g., mutations or knock-out of clock genes) and circadian clock misalignments (such as during shift work and chronic jet-lag) have an adverse effect on energy metabolism, that may trigger or enhancing obese and diabetic symptoms. •The central pacemaker shows its peak activity at the same astronomical time in diurnal and nocturnal species.•Circadian clocks regulate the daily rhythmicity of glucose and lipid metabolism.•Daily rhythms of metabolic processes and hormonal release are oppositely phased in nocturnal and diurnal mammals.•Various disturbances in the metabolic phenotype have been reported in clock gene mutant and knock-out mice.•Evidence for a causative link between circadian desynchronization and metabolic abnormalities is accumulating.
AbstractList Most aspects of energy metabolism display clear variations during day and night. This daily rhythmicity of metabolic functions, including hormone release, is governed by a circadian system that consists of the master clock in the suprachiasmatic nuclei of the hypothalamus (SCN) and many secondary clocks in the brain and peripheral organs. The SCN control peripheral timing via the autonomic and neuroendocrine system, as well as via behavioral outputs. The sleep-wake cycle, the feeding/fasting rhythm and most hormonal rhythms, including that of leptin, ghrelin and glucocorticoids, usually show an opposite phase (relative to the light-dark cycle) in diurnal and nocturnal species. By contrast, the SCN clock is most active at the same astronomical times in these two categories of mammals. Moreover, in both species, pineal melatonin is secreted only at night. In this review we describe the current knowledge on the regulation of glucose and lipid metabolism by central and peripheral clock mechanisms. Most experimental knowledge comes from studies in nocturnal laboratory rodents. Nevertheless, we will also mention some relevant findings in diurnal mammals, including humans. It will become clear that as a consequence of the tight connections between the circadian clock system and energy metabolism, circadian clock impairments (e.g., mutations or knock-out of clock genes) and circadian clock misalignments (such as during shift work and chronic jet-lag) have an adverse effect on energy metabolism, that may trigger or enhancing obese and diabetic symptoms.Most aspects of energy metabolism display clear variations during day and night. This daily rhythmicity of metabolic functions, including hormone release, is governed by a circadian system that consists of the master clock in the suprachiasmatic nuclei of the hypothalamus (SCN) and many secondary clocks in the brain and peripheral organs. The SCN control peripheral timing via the autonomic and neuroendocrine system, as well as via behavioral outputs. The sleep-wake cycle, the feeding/fasting rhythm and most hormonal rhythms, including that of leptin, ghrelin and glucocorticoids, usually show an opposite phase (relative to the light-dark cycle) in diurnal and nocturnal species. By contrast, the SCN clock is most active at the same astronomical times in these two categories of mammals. Moreover, in both species, pineal melatonin is secreted only at night. In this review we describe the current knowledge on the regulation of glucose and lipid metabolism by central and peripheral clock mechanisms. Most experimental knowledge comes from studies in nocturnal laboratory rodents. Nevertheless, we will also mention some relevant findings in diurnal mammals, including humans. It will become clear that as a consequence of the tight connections between the circadian clock system and energy metabolism, circadian clock impairments (e.g., mutations or knock-out of clock genes) and circadian clock misalignments (such as during shift work and chronic jet-lag) have an adverse effect on energy metabolism, that may trigger or enhancing obese and diabetic symptoms.
Most aspects of energy metabolism display clear variations during day and night. This daily rhythmicity of metabolic functions, including hormone release, is governed by a circadian system that consists of the master clock in the suprachiasmatic nuclei of the hypothalamus (SCN) and many secondary clocks in the brain and peripheral organs. The SCN control peripheral timing via the autonomic and neuroendocrine system, as well as via behavioral outputs. The sleep-wake cycle, the feeding/fasting rhythm and most hormonal rhythms, including that of leptin, ghrelin and glucocorticoids, usually show an opposite phase (relative to the light-dark cycle) in diurnal and nocturnal species. By contrast, the SCN clock is most active at the same astronomical times in these two categories of mammals. Moreover, in both species, pineal melatonin is secreted only at night. In this review we describe the current knowledge on the regulation of glucose and lipid metabolism by central and peripheral clock mechanisms. Most experimental knowledge comes from studies in nocturnal laboratory rodents. Nevertheless, we will also mention some relevant findings in diurnal mammals, including humans. It will become clear that as a consequence of the tight connections between the circadian clock system and energy metabolism, circadian clock impairments (e.g., mutations or knock-out of clock genes) and circadian clock misalignments (such as during shift work and chronic jet-lag) have an adverse effect on energy metabolism, that may trigger or enhancing obese and diabetic symptoms.
Most aspects of energy metabolism display clear variations during day and night. This daily rhythmicity of metabolic functions, including hormone release, is governed by a circadian system that consists of the master clock in the suprachiasmatic nuclei of the hypothalamus (SCN) and many secondary clocks in the brain and peripheral organs. The SCN control peripheral timing via the autonomic and neuroendocrine system, as well as via behavioral outputs. The sleep–wake cycle, the feeding/fasting rhythm and most hormonal rhythms, including that of leptin, ghrelin and glucocorticoids, usually show an opposite phase (relative to the light–dark cycle) in diurnal and nocturnal species. By contrast, the SCN clock is most active at the same astronomical times in these two categories of mammals. Moreover, in both species, pineal melatonin is secreted only at night. In this review we describe the current knowledge on the regulation of glucose and lipid metabolism by central and peripheral clock mechanisms. Most experimental knowledge comes from studies in nocturnal laboratory rodents. Nevertheless, we will also mention some relevant findings in diurnal mammals, including humans. It will become clear that as a consequence of the tight connections between the circadian clock system and energy metabolism, circadian clock impairments (e.g., mutations or knock-out of clock genes) and circadian clock misalignments (such as during shift work and chronic jet-lag) have an adverse effect on energy metabolism, that may trigger or enhancing obese and diabetic symptoms. •The central pacemaker shows its peak activity at the same astronomical time in diurnal and nocturnal species.•Circadian clocks regulate the daily rhythmicity of glucose and lipid metabolism.•Daily rhythms of metabolic processes and hormonal release are oppositely phased in nocturnal and diurnal mammals.•Various disturbances in the metabolic phenotype have been reported in clock gene mutant and knock-out mice.•Evidence for a causative link between circadian desynchronization and metabolic abnormalities is accumulating.
Author Challet, Etienne
Kalsbeek, Andries
Kumar Jha, Pawan
Author_xml – sequence: 1
  givenname: Pawan
  surname: Kumar Jha
  fullname: Kumar Jha, Pawan
  organization: Hypothalamic Integration Mechanisms, Netherlands Institute for Neuroscience, Amsterdam, The Netherlands
– sequence: 2
  givenname: Etienne
  surname: Challet
  fullname: Challet, Etienne
  organization: Regulation of Circadian Clocks Team, Institute of Cellular and Integrative Neurosciences, UPR3212, Centre National de la Recherche Scientifique (CNRS), University of Strasbourg, France
– sequence: 3
  givenname: Andries
  surname: Kalsbeek
  fullname: Kalsbeek, Andries
  email: a.kalsbeek@amc.uva.nl
  organization: Hypothalamic Integration Mechanisms, Netherlands Institute for Neuroscience, Amsterdam, The Netherlands
BackLink https://www.ncbi.nlm.nih.gov/pubmed/25662277$$D View this record in MEDLINE/PubMed
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Glucose metabolism
Circadian rhythm
Lipid metabolism
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Autonomic nervous system
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Snippet Most aspects of energy metabolism display clear variations during day and night. This daily rhythmicity of metabolic functions, including hormone release, is...
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SubjectTerms adverse effects
Animals
Autonomic nervous system
Carbohydrate Metabolism - physiology
Circadian Clocks - physiology
Circadian rhythm
Circadian Rhythm - physiology
energy metabolism
fasting
genes
ghrelin
glucocorticoids
glucose
Glucose - metabolism
Humans
Hypothalamus
Hypothalamus - metabolism
leptin
Lipid metabolism
Lipid Metabolism - physiology
melatonin
mutation
neurosecretory system
photoperiod
rodents
Suprachiasmatic nucleus
Suprachiasmatic Nucleus - metabolism
work schedules
Title Circadian rhythms in glucose and lipid metabolism in nocturnal and diurnal mammals
URI https://dx.doi.org/10.1016/j.mce.2015.01.024
https://www.ncbi.nlm.nih.gov/pubmed/25662277
https://www.proquest.com/docview/1735900459
https://www.proquest.com/docview/2000293443
Volume 418
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