Forebrain Cholinergic Signaling Regulates Innate Immune Responses and Inflammation

Forebrain Cholinergic Signaling Regulates Innate Immune Responses and Inflammation

The brain regulates physiological functions integral to survival. However, the insight into brain neuronal regulation of peripheral immune function and the neuromediator systems and pathways involved remains limited. Here, utilizing selective genetic and pharmacological approaches, we studied the ro...

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Main Authors: Kurt R. Lehner, Harold A. Silverman, Meghan E. Addorisio, Ashbeel Roy, Mohammed A. Al-Onaizi, Yaakov Levine, Peder S. Olofsson, Sangeeta S. Chavan, Robert Gros, Neil M. Nathanson, Yousef Al-Abed, Christine N. Metz, Vania F. Prado, Marco A. M. Prado, Kevin J. Tracey, Valentin A. Pavlov
Format: Article
Language:English
Published: Frontiers Media S.A. 2019-04-01
Series:Frontiers in Immunology
Subjects:
forebrain cholinergic
cytokines
inflammation
vagus nerve
endotoxemia
sepsis
Online Access:https://www.frontiersin.org/article/10.3389/fimmu.2019.00585/full
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author Kurt R. Lehner
Harold A. Silverman
Harold A. Silverman
Meghan E. Addorisio
Ashbeel Roy
Ashbeel Roy
Mohammed A. Al-Onaizi
Mohammed A. Al-Onaizi
Yaakov Levine
Peder S. Olofsson
Peder S. Olofsson
Sangeeta S. Chavan
Sangeeta S. Chavan
Robert Gros
Robert Gros
Robert Gros
Neil M. Nathanson
Yousef Al-Abed
Yousef Al-Abed
Christine N. Metz
Christine N. Metz
Vania F. Prado
Vania F. Prado
Vania F. Prado
Vania F. Prado
Marco A. M. Prado
Marco A. M. Prado
Marco A. M. Prado
Marco A. M. Prado
Kevin J. Tracey
Kevin J. Tracey
Valentin A. Pavlov
Valentin A. Pavlov
spellingShingle Kurt R. Lehner
Harold A. Silverman
Harold A. Silverman
Meghan E. Addorisio
Ashbeel Roy
Ashbeel Roy
Mohammed A. Al-Onaizi
Mohammed A. Al-Onaizi
Yaakov Levine
Peder S. Olofsson
Peder S. Olofsson
Sangeeta S. Chavan
Sangeeta S. Chavan
Robert Gros
Robert Gros
Robert Gros
Neil M. Nathanson
Yousef Al-Abed
Yousef Al-Abed
Christine N. Metz
Christine N. Metz
Vania F. Prado
Vania F. Prado
Vania F. Prado
Vania F. Prado
Marco A. M. Prado
Marco A. M. Prado
Marco A. M. Prado
Marco A. M. Prado
Kevin J. Tracey
Kevin J. Tracey
Valentin A. Pavlov
Valentin A. Pavlov
Forebrain Cholinergic Signaling Regulates Innate Immune Responses and Inflammation
Frontiers in Immunology
forebrain cholinergic
cytokines
inflammation
vagus nerve
endotoxemia
sepsis
author_facet Kurt R. Lehner
Harold A. Silverman
Harold A. Silverman
Meghan E. Addorisio
Ashbeel Roy
Ashbeel Roy
Mohammed A. Al-Onaizi
Mohammed A. Al-Onaizi
Yaakov Levine
Peder S. Olofsson
Peder S. Olofsson
Sangeeta S. Chavan
Sangeeta S. Chavan
Robert Gros
Robert Gros
Robert Gros
Neil M. Nathanson
Yousef Al-Abed
Yousef Al-Abed
Christine N. Metz
Christine N. Metz
Vania F. Prado
Vania F. Prado
Vania F. Prado
Vania F. Prado
Marco A. M. Prado
Marco A. M. Prado
Marco A. M. Prado
Marco A. M. Prado
Kevin J. Tracey
Kevin J. Tracey
Valentin A. Pavlov
Valentin A. Pavlov
author_sort Kurt R. Lehner
title Forebrain Cholinergic Signaling Regulates Innate Immune Responses and Inflammation
title_short Forebrain Cholinergic Signaling Regulates Innate Immune Responses and Inflammation
title_full Forebrain Cholinergic Signaling Regulates Innate Immune Responses and Inflammation
title_fullStr Forebrain Cholinergic Signaling Regulates Innate Immune Responses and Inflammation
title_full_unstemmed Forebrain Cholinergic Signaling Regulates Innate Immune Responses and Inflammation
title_sort forebrain cholinergic signaling regulates innate immune responses and inflammation
publisher Frontiers Media S.A.
series Frontiers in Immunology
issn 1664-3224
publishDate 2019-04-01
description The brain regulates physiological functions integral to survival. However, the insight into brain neuronal regulation of peripheral immune function and the neuromediator systems and pathways involved remains limited. Here, utilizing selective genetic and pharmacological approaches, we studied the role of forebrain cholinergic signaling in the regulation of peripheral immune function and inflammation. Forebrain-selective genetic ablation of acetylcholine release and vagotomy abolished the suppression of serum TNF by the centrally-acting cholinergic drug galantamine in murine endotoxemia. Selective stimulation of acetylcholine action on the M1 muscarinic acetylcholine receptor (M1 mAChR) by central administration of the positive allosteric modulator benzyl quinolone carboxylic acid (BQCA) suppressed serum TNF (TNFα) levels in murine endotoxemia. This effect was recapitulated by peripheral administration of the compound. BQCA also improved survival in murine endotoxemia and these effects were abolished in M1 mAChR knockout (KO) mice. Selective optogenetic stimulation of basal forebrain cholinergic neurons innervating brain regions with abundant M1 mAChR localization reduced serum TNF in endotoxemic mice. These findings reveal that forebrain cholinergic neurons regulate innate immune responses and inflammation, suggesting the possibility that in diseases associated with cholinergic dysfunction, including Alzheimer's disease this anti-inflammatory regulation can be impaired. These results also suggest novel anti-inflammatory approaches based on targeting forebrain cholinergic signaling in sepsis and other disorders characterized by immune dysregulation.
topic forebrain cholinergic
cytokines
inflammation
vagus nerve
endotoxemia
sepsis
url https://www.frontiersin.org/article/10.3389/fimmu.2019.00585/full
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spelling doaj-9429fd2bb29d48c2bd224db6663e80e62020-11-24T21:50:25ZengFrontiers Media S.A.Frontiers in Immunology1664-32242019-04-011010.3389/fimmu.2019.00585443008Forebrain Cholinergic Signaling Regulates Innate Immune Responses and InflammationKurt R. Lehner0Harold A. Silverman1Harold A. Silverman2Meghan E. Addorisio3Ashbeel Roy4Ashbeel Roy5Mohammed A. Al-Onaizi6Mohammed A. Al-Onaizi7Yaakov Levine8Peder S. Olofsson9Peder S. Olofsson10Sangeeta S. Chavan11Sangeeta S. Chavan12Robert Gros13Robert Gros14Robert Gros15Neil M. Nathanson16Yousef Al-Abed17Yousef Al-Abed18Christine N. Metz19Christine N. Metz20Vania F. Prado21Vania F. Prado22Vania F. Prado23Vania F. Prado24Marco A. M. Prado25Marco A. M. Prado26Marco A. M. Prado27Marco A. M. Prado28Kevin J. Tracey29Kevin J. Tracey30Valentin A. Pavlov31Valentin A. Pavlov32Zucker School of Medicine at Hofstra/Northwell, Hempstead, NY, United StatesZucker School of Medicine at Hofstra/Northwell, Hempstead, NY, United StatesCenter for Biomedical Science and Bioelectronic Medicine, The Feinstein Institute for Medical Research, Northwell Health, Manhasset, NY, United StatesCenter for Biomedical Science and Bioelectronic Medicine, The Feinstein Institute for Medical Research, Northwell Health, Manhasset, NY, United StatesSchulich School of Medicine and Dentistry, Robarts Research Institute, University of Western Ontario, London, ON, CanadaDepartment of Physiology and Pharmacology, Schulich School of Medicine and Dentistry, University of Western Ontario, London, ON, CanadaSchulich School of Medicine and Dentistry, Robarts Research Institute, University of Western Ontario, London, ON, CanadaDepartment of Anatomy, Faculty of Medicine, Kuwait University, Kuwait City, KuwaitSetPoint Medical Corporation, Valencia, CA, United StatesCenter for Biomedical Science and Bioelectronic Medicine, The Feinstein Institute for Medical Research, Northwell Health, Manhasset, NY, United StatesDepartment of Medicine, Center for Bioelectronic Medicine, Center for Molecular Medicine, Karolinska Institutet, Karolinska University Hospital, Stockholm, SwedenZucker School of Medicine at Hofstra/Northwell, Hempstead, NY, United StatesCenter for Biomedical Science and Bioelectronic Medicine, The Feinstein Institute for Medical Research, Northwell Health, Manhasset, NY, United StatesSchulich School of Medicine and Dentistry, Robarts Research Institute, University of Western Ontario, London, ON, CanadaDepartment of Physiology and Pharmacology, Schulich School of Medicine and Dentistry, University of Western Ontario, London, ON, CanadaDepartment of Medicine, Schulich School of Medicine and Dentistry, University of Western Ontario, London, ON, CanadaDepartment of Pharmacology, University of Washington, Seattle, WA, United StatesCenter for Biomedical Science and Bioelectronic Medicine, The Feinstein Institute for Medical Research, Northwell Health, Manhasset, NY, United States0Department of Medicinal Chemistry, Center for Molecular Innovation, The Feinstein Institute for Medical Research, Northwell Health, Manhasset, NY, United StatesZucker School of Medicine at Hofstra/Northwell, Hempstead, NY, United StatesCenter for Biomedical Science and Bioelectronic Medicine, The Feinstein Institute for Medical Research, Northwell Health, Manhasset, NY, United StatesSchulich School of Medicine and Dentistry, Robarts Research Institute, University of Western Ontario, London, ON, CanadaDepartment of Physiology and Pharmacology, Schulich School of Medicine and Dentistry, University of Western Ontario, London, ON, Canada1Department of Anatomy and Cell Biology, Schulich School of Medicine and Dentistry, University of Western Ontario, London, ON, Canada2Graduate Program in Neuroscience, Schulich School of Medicine and Dentistry, University of Western Ontario, London, ON, CanadaSchulich School of Medicine and Dentistry, Robarts Research Institute, University of Western Ontario, London, ON, CanadaDepartment of Physiology and Pharmacology, Schulich School of Medicine and Dentistry, University of Western Ontario, London, ON, Canada1Department of Anatomy and Cell Biology, Schulich School of Medicine and Dentistry, University of Western Ontario, London, ON, Canada2Graduate Program in Neuroscience, Schulich School of Medicine and Dentistry, University of Western Ontario, London, ON, CanadaZucker School of Medicine at Hofstra/Northwell, Hempstead, NY, United StatesCenter for Biomedical Science and Bioelectronic Medicine, The Feinstein Institute for Medical Research, Northwell Health, Manhasset, NY, United StatesZucker School of Medicine at Hofstra/Northwell, Hempstead, NY, United StatesCenter for Biomedical Science and Bioelectronic Medicine, The Feinstein Institute for Medical Research, Northwell Health, Manhasset, NY, United StatesThe brain regulates physiological functions integral to survival. However, the insight into brain neuronal regulation of peripheral immune function and the neuromediator systems and pathways involved remains limited. Here, utilizing selective genetic and pharmacological approaches, we studied the role of forebrain cholinergic signaling in the regulation of peripheral immune function and inflammation. Forebrain-selective genetic ablation of acetylcholine release and vagotomy abolished the suppression of serum TNF by the centrally-acting cholinergic drug galantamine in murine endotoxemia. Selective stimulation of acetylcholine action on the M1 muscarinic acetylcholine receptor (M1 mAChR) by central administration of the positive allosteric modulator benzyl quinolone carboxylic acid (BQCA) suppressed serum TNF (TNFα) levels in murine endotoxemia. This effect was recapitulated by peripheral administration of the compound. BQCA also improved survival in murine endotoxemia and these effects were abolished in M1 mAChR knockout (KO) mice. Selective optogenetic stimulation of basal forebrain cholinergic neurons innervating brain regions with abundant M1 mAChR localization reduced serum TNF in endotoxemic mice. These findings reveal that forebrain cholinergic neurons regulate innate immune responses and inflammation, suggesting the possibility that in diseases associated with cholinergic dysfunction, including Alzheimer's disease this anti-inflammatory regulation can be impaired. These results also suggest novel anti-inflammatory approaches based on targeting forebrain cholinergic signaling in sepsis and other disorders characterized by immune dysregulation.https://www.frontiersin.org/article/10.3389/fimmu.2019.00585/fullforebrain cholinergiccytokinesinflammationvagus nerveendotoxemiasepsis

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