Epineural optogenetic activation of nociceptors initiates and amplifies inflammation

Activation of nociceptor sensory neurons by noxious stimuli both triggers pain and increases capillary permeability and blood flow to produce neurogenic inflammation(1,2), but whether nociceptors also interact with the immune system remains poorly understood. Here we report a neurotechnology for sel...

Descripción completa

Detalles Bibliográficos
Autores principales: Michoud, Frédéric, Seehus, Corey, Schönle, Philipp, Brun, Noé, Taub, Daniel, Zhang, Zihe, Jain, Aakanksha, Furfaro, Ivan, Akouissi, Outman, Moon, Rachel, Meier, Pascale, Galan, Katia, Doyle, Benjamin, Tetreault, Michael, Talbot, Sébastien, Browne, Liam E., Huang, Qiuting, Woolf, Clifford J., Lacour, Stéphanie P.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2020
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7878280/
https://www.ncbi.nlm.nih.gov/pubmed/32958958
http://dx.doi.org/10.1038/s41587-020-0673-2
_version_ 1783650324608712704
author Michoud, Frédéric
Seehus, Corey
Schönle, Philipp
Brun, Noé
Taub, Daniel
Zhang, Zihe
Jain, Aakanksha
Furfaro, Ivan
Akouissi, Outman
Moon, Rachel
Meier, Pascale
Galan, Katia
Doyle, Benjamin
Tetreault, Michael
Talbot, Sébastien
Browne, Liam E.
Huang, Qiuting
Woolf, Clifford J.
Lacour, Stéphanie P.
author_facet Michoud, Frédéric
Seehus, Corey
Schönle, Philipp
Brun, Noé
Taub, Daniel
Zhang, Zihe
Jain, Aakanksha
Furfaro, Ivan
Akouissi, Outman
Moon, Rachel
Meier, Pascale
Galan, Katia
Doyle, Benjamin
Tetreault, Michael
Talbot, Sébastien
Browne, Liam E.
Huang, Qiuting
Woolf, Clifford J.
Lacour, Stéphanie P.
author_sort Michoud, Frédéric
collection PubMed
description Activation of nociceptor sensory neurons by noxious stimuli both triggers pain and increases capillary permeability and blood flow to produce neurogenic inflammation(1,2), but whether nociceptors also interact with the immune system remains poorly understood. Here we report a neurotechnology for selective epineural optogenetic neuromodulation of nociceptors and demonstrate that nociceptor activation drives both protective pain behavior and inflammation. The wireless optoelectronic system consists of sub-millimeter-scale light-emitting diodes embedded in a soft, circumneural sciatic nerve implant, powered and driven by a miniaturized head-mounted control unit. Photostimulation of axons in freely moving mice that express channelrhodopsin only in nociceptors resulted in behaviors characteristic of pain, reflecting orthodromic input to the spinal cord. It also led to immune reactions in the skin in the absence of inflammation and potentiation of established inflammation, a consequence of the antidromic activation of nociceptor peripheral terminals. These results reveal a link between nociceptors and immune cells, which may have implications for the treatment of inflammation.
format Online
Article
Text
id pubmed-7878280
institution National Center for Biotechnology Information
language English
publishDate 2020
record_format MEDLINE/PubMed
spelling pubmed-78782802021-03-21 Epineural optogenetic activation of nociceptors initiates and amplifies inflammation Michoud, Frédéric Seehus, Corey Schönle, Philipp Brun, Noé Taub, Daniel Zhang, Zihe Jain, Aakanksha Furfaro, Ivan Akouissi, Outman Moon, Rachel Meier, Pascale Galan, Katia Doyle, Benjamin Tetreault, Michael Talbot, Sébastien Browne, Liam E. Huang, Qiuting Woolf, Clifford J. Lacour, Stéphanie P. Nat Biotechnol Article Activation of nociceptor sensory neurons by noxious stimuli both triggers pain and increases capillary permeability and blood flow to produce neurogenic inflammation(1,2), but whether nociceptors also interact with the immune system remains poorly understood. Here we report a neurotechnology for selective epineural optogenetic neuromodulation of nociceptors and demonstrate that nociceptor activation drives both protective pain behavior and inflammation. The wireless optoelectronic system consists of sub-millimeter-scale light-emitting diodes embedded in a soft, circumneural sciatic nerve implant, powered and driven by a miniaturized head-mounted control unit. Photostimulation of axons in freely moving mice that express channelrhodopsin only in nociceptors resulted in behaviors characteristic of pain, reflecting orthodromic input to the spinal cord. It also led to immune reactions in the skin in the absence of inflammation and potentiation of established inflammation, a consequence of the antidromic activation of nociceptor peripheral terminals. These results reveal a link between nociceptors and immune cells, which may have implications for the treatment of inflammation. 2020-09-21 2021-02 /pmc/articles/PMC7878280/ /pubmed/32958958 http://dx.doi.org/10.1038/s41587-020-0673-2 Text en Users may view, print, copy, and download text and data-mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use:http://www.nature.com/authors/editorial_policies/license.html#terms
spellingShingle Article
Michoud, Frédéric
Seehus, Corey
Schönle, Philipp
Brun, Noé
Taub, Daniel
Zhang, Zihe
Jain, Aakanksha
Furfaro, Ivan
Akouissi, Outman
Moon, Rachel
Meier, Pascale
Galan, Katia
Doyle, Benjamin
Tetreault, Michael
Talbot, Sébastien
Browne, Liam E.
Huang, Qiuting
Woolf, Clifford J.
Lacour, Stéphanie P.
Epineural optogenetic activation of nociceptors initiates and amplifies inflammation
title Epineural optogenetic activation of nociceptors initiates and amplifies inflammation
title_full Epineural optogenetic activation of nociceptors initiates and amplifies inflammation
title_fullStr Epineural optogenetic activation of nociceptors initiates and amplifies inflammation
title_full_unstemmed Epineural optogenetic activation of nociceptors initiates and amplifies inflammation
title_short Epineural optogenetic activation of nociceptors initiates and amplifies inflammation
title_sort epineural optogenetic activation of nociceptors initiates and amplifies inflammation
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7878280/
https://www.ncbi.nlm.nih.gov/pubmed/32958958
http://dx.doi.org/10.1038/s41587-020-0673-2
work_keys_str_mv AT michoudfrederic epineuraloptogeneticactivationofnociceptorsinitiatesandamplifiesinflammation
AT seehuscorey epineuraloptogeneticactivationofnociceptorsinitiatesandamplifiesinflammation
AT schonlephilipp epineuraloptogeneticactivationofnociceptorsinitiatesandamplifiesinflammation
AT brunnoe epineuraloptogeneticactivationofnociceptorsinitiatesandamplifiesinflammation
AT taubdaniel epineuraloptogeneticactivationofnociceptorsinitiatesandamplifiesinflammation
AT zhangzihe epineuraloptogeneticactivationofnociceptorsinitiatesandamplifiesinflammation
AT jainaakanksha epineuraloptogeneticactivationofnociceptorsinitiatesandamplifiesinflammation
AT furfaroivan epineuraloptogeneticactivationofnociceptorsinitiatesandamplifiesinflammation
AT akouissioutman epineuraloptogeneticactivationofnociceptorsinitiatesandamplifiesinflammation
AT moonrachel epineuraloptogeneticactivationofnociceptorsinitiatesandamplifiesinflammation
AT meierpascale epineuraloptogeneticactivationofnociceptorsinitiatesandamplifiesinflammation
AT galankatia epineuraloptogeneticactivationofnociceptorsinitiatesandamplifiesinflammation
AT doylebenjamin epineuraloptogeneticactivationofnociceptorsinitiatesandamplifiesinflammation
AT tetreaultmichael epineuraloptogeneticactivationofnociceptorsinitiatesandamplifiesinflammation
AT talbotsebastien epineuraloptogeneticactivationofnociceptorsinitiatesandamplifiesinflammation
AT browneliame epineuraloptogeneticactivationofnociceptorsinitiatesandamplifiesinflammation
AT huangqiuting epineuraloptogeneticactivationofnociceptorsinitiatesandamplifiesinflammation
AT woolfcliffordj epineuraloptogeneticactivationofnociceptorsinitiatesandamplifiesinflammation
AT lacourstephaniep epineuraloptogeneticactivationofnociceptorsinitiatesandamplifiesinflammation

Ejemplares similares