Neuroimmune Interactions and Rhythmic Regulation of Innate Lymphoid Cells
The Earth's rotation around its axis, is one of the parameters that never changed since life emerged. Therefore, most of the organisms from the cyanobacteria to humans have conserved natural oscillations to regulate their physiology. These daily oscillations define the circadian rhythms that se...
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Published in | Frontiers in neuroscience Vol. 15; p. 657081 |
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Abstract | The Earth's rotation around its axis, is one of the parameters that never changed since life emerged. Therefore, most of the organisms from the cyanobacteria to humans have conserved natural oscillations to regulate their physiology. These daily oscillations define the circadian rhythms that set the biological clock for almost all physiological processes of an organism. They allow the organisms to anticipate and respond behaviorally and physiologically to changes imposed by the day/night cycle. As other physiological systems, the immune system is also regulated by circadian rhythms and while diurnal variation in host immune responses to lethal infection have been observed for many decades, the underlying mechanisms that affect immune function and health have only just started to emerge. These oscillations are generated by the central clock in our brain, but neuroendocrine signals allow the synchronization of the clocks in peripheral tissues. In this review, we discuss how the neuroimmune interactions create a rhythmic activity of the innate lymphoid cells. We highlight how the disruption of these rhythmic regulations of immune cells can disturb homeostasis and lead to the development of chronic inflammation in murine models. |
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AbstractList | The Earth’s rotation around its axis, is one of the parameters that never changed since life emerged. Therefore, most of the organisms from the cyanobacteria to humans have conserved natural oscillations to regulate their physiology. These daily oscillations define the circadian rhythms that set the biological clock for almost all physiological processes of an organism. They allow the organisms to anticipate and respond behaviorally and physiologically to changes imposed by the day/night cycle. As other physiological systems, the immune system is also regulated by circadian rhythms and while diurnal variation in host immune responses to lethal infection have been observed for many decades, the underlying mechanisms that affect immune function and health have only just started to emerge. These oscillations are generated by the central clock in our brain, but neuroendocrine signals allow the synchronization of the clocks in peripheral tissues. In this review, we discuss how the neuroimmune interactions create a rhythmic activity of the innate lymphoid cells. We highlight how the disruption of these rhythmic regulations of immune cells can disturb homeostasis and lead to the development of chronic inflammation in murine models. The Earth’s rotation around its axis, is one of the parameters that never changed since life emerged. Therefore, most of the organisms from the cyanobacteria to humans have conserved natural oscillations to regulate their physiology. These daily oscillations define the circadian rhythms that set the biological clock for almost all physiological processes of an organism. They allow the organisms to anticipate and respond behaviourally and physiologically to changes imposed by the day/night cycle. As other physiological systems, the immune system is also regulated by circadian rhythms and while diurnal variation in host immune responses to lethal infection have been observed for many decades, the underlying mechanisms that affect immune function and health have only just started to emerge. These oscillations are generated by the central clock in our brain, but neuroendocrine signals allow the synchronisation of the clocks in peripheral tissues. In this review, we discuss how the neuroimmune interactions create a rhythmic activity of the innate lymphoid cells. We highlight how the disruption of these rhythmic regulations of immune cells can disturb homeostasis and lead to the development of chronic inflammation in murine models. |
Author | Belz, Gabrielle T Jacquelot, Nicolas Seillet, Cyril |
AuthorAffiliation | 3 Diamantina Institute, The University of Queensland , Woolloongabba, QLD , Australia 1 Walter and Eliza Hall Institute of Medical Research , Parkville, VIC , Australia 2 Department of Medical Biology, University of Melbourne , Parkville, VIC , Australia |
AuthorAffiliation_xml | – name: 2 Department of Medical Biology, University of Melbourne , Parkville, VIC , Australia – name: 1 Walter and Eliza Hall Institute of Medical Research , Parkville, VIC , Australia – name: 3 Diamantina Institute, The University of Queensland , Woolloongabba, QLD , Australia |
Author_xml | – sequence: 1 givenname: Nicolas surname: Jacquelot fullname: Jacquelot, Nicolas organization: Department of Medical Biology, University of Melbourne, Parkville, VIC, Australia – sequence: 2 givenname: Gabrielle T surname: Belz fullname: Belz, Gabrielle T organization: Diamantina Institute, The University of Queensland, Woolloongabba, QLD, Australia – sequence: 3 givenname: Cyril surname: Seillet fullname: Seillet, Cyril organization: Department of Medical Biology, University of Melbourne, Parkville, VIC, Australia |
BackLink | https://www.ncbi.nlm.nih.gov/pubmed/33994930$$D View this record in MEDLINE/PubMed |
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Copyright | Copyright © 2021 Jacquelot, Belz and Seillet. 2021. This work is licensed under http://creativecommons.org/licenses/by/4.0/ (the “License”). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. Copyright © 2021 Jacquelot, Belz and Seillet. 2021 Jacquelot, Belz and Seillet |
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Keywords | homeostasis neuroimmune interactions inflammation neuropeptide circadian rhythm |
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Snippet | The Earth's rotation around its axis, is one of the parameters that never changed since life emerged. Therefore, most of the organisms from the cyanobacteria... The Earth’s rotation around its axis, is one of the parameters that never changed since life emerged. Therefore, most of the organisms from the cyanobacteria... |
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SubjectTerms | Animal models Asthma Biological clocks Catecholamines Circadian rhythm Circadian rhythms Cytokines Cytotoxicity Diurnal variations Food Homeostasis Hormones Immune response Inflammation Lymphoid cells Nervous system neuroimmune interactions neuropeptide Neuropeptides Neuroscience Oscillations Pathogens Transcription factors Viral infections |
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Title | Neuroimmune Interactions and Rhythmic Regulation of Innate Lymphoid Cells |
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