An analgesic pathway from parvocellular oxytocin neurons to the periaqueductal gray in rats

The hypothalamic neuropeptide oxytocin (OT) exerts prominent analgesic effects via central and peripheral action. However, the precise analgesic pathways recruited by OT are largely elusive. Here we discovered a subset of OT neurons whose projections preferentially terminate on OT receptor (OTR)-exp...

Descripción completa

Detalles Bibliográficos
Autores principales: Iwasaki, Mai, Lefevre, Arthur, Althammer, Ferdinand, Clauss Creusot, Etienne, Łąpieś, Olga, Petitjean, Hugues, Hilfiger, Louis, Kerspern, Damien, Melchior, Meggane, Küppers, Stephanie, Krabichler, Quirin, Patwell, Ryan, Kania, Alan, Gruber, Tim, Kirchner, Matthew K., Wimmer, Moritz, Fröhlich, Henning, Dötsch, Laura, Schimmer, Jonas, Herpertz, Sabine C., Ditzen, Beate, Schaaf, Christian P., Schönig, Kai, Bartsch, Dusan, Gugula, Anna, Trenk, Aleksandra, Blasiak, Anna, Stern, Javier E., Darbon, Pascal, Grinevich, Valery, Charlet, Alexandre
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9958129/
https://www.ncbi.nlm.nih.gov/pubmed/36828816
http://dx.doi.org/10.1038/s41467-023-36641-7
_version_ 1784894959488335872
author Iwasaki, Mai
Lefevre, Arthur
Althammer, Ferdinand
Clauss Creusot, Etienne
Łąpieś, Olga
Petitjean, Hugues
Hilfiger, Louis
Kerspern, Damien
Melchior, Meggane
Küppers, Stephanie
Krabichler, Quirin
Patwell, Ryan
Kania, Alan
Gruber, Tim
Kirchner, Matthew K.
Wimmer, Moritz
Fröhlich, Henning
Dötsch, Laura
Schimmer, Jonas
Herpertz, Sabine C.
Ditzen, Beate
Schaaf, Christian P.
Schönig, Kai
Bartsch, Dusan
Gugula, Anna
Trenk, Aleksandra
Blasiak, Anna
Stern, Javier E.
Darbon, Pascal
Grinevich, Valery
Charlet, Alexandre
author_facet Iwasaki, Mai
Lefevre, Arthur
Althammer, Ferdinand
Clauss Creusot, Etienne
Łąpieś, Olga
Petitjean, Hugues
Hilfiger, Louis
Kerspern, Damien
Melchior, Meggane
Küppers, Stephanie
Krabichler, Quirin
Patwell, Ryan
Kania, Alan
Gruber, Tim
Kirchner, Matthew K.
Wimmer, Moritz
Fröhlich, Henning
Dötsch, Laura
Schimmer, Jonas
Herpertz, Sabine C.
Ditzen, Beate
Schaaf, Christian P.
Schönig, Kai
Bartsch, Dusan
Gugula, Anna
Trenk, Aleksandra
Blasiak, Anna
Stern, Javier E.
Darbon, Pascal
Grinevich, Valery
Charlet, Alexandre
author_sort Iwasaki, Mai
collection PubMed
description The hypothalamic neuropeptide oxytocin (OT) exerts prominent analgesic effects via central and peripheral action. However, the precise analgesic pathways recruited by OT are largely elusive. Here we discovered a subset of OT neurons whose projections preferentially terminate on OT receptor (OTR)-expressing neurons in the ventrolateral periaqueductal gray (vlPAG). Using a newly generated line of transgenic rats (OTR-IRES-Cre), we determined that most of the vlPAG OTR expressing cells targeted by OT projections are GABAergic. Ex vivo stimulation of parvocellular OT axons in the vlPAG induced local OT release, as measured with OT sensor GRAB. In vivo, optogenetically-evoked axonal OT release in the vlPAG of as well as chemogenetic activation of OTR vlPAG neurons resulted in a long-lasting increase of vlPAG neuronal activity. This lead to an indirect suppression of sensory neuron activity in the spinal cord and strong analgesia in both female and male rats. Altogether, we describe an OT-vlPAG-spinal cord circuit that is critical for analgesia in both inflammatory and neuropathic pain models.
format Online
Article
Text
id pubmed-9958129
institution National Center for Biotechnology Information
language English
publishDate 2023
publisher Nature Publishing Group UK
record_format MEDLINE/PubMed
spelling pubmed-99581292023-02-26 An analgesic pathway from parvocellular oxytocin neurons to the periaqueductal gray in rats Iwasaki, Mai Lefevre, Arthur Althammer, Ferdinand Clauss Creusot, Etienne Łąpieś, Olga Petitjean, Hugues Hilfiger, Louis Kerspern, Damien Melchior, Meggane Küppers, Stephanie Krabichler, Quirin Patwell, Ryan Kania, Alan Gruber, Tim Kirchner, Matthew K. Wimmer, Moritz Fröhlich, Henning Dötsch, Laura Schimmer, Jonas Herpertz, Sabine C. Ditzen, Beate Schaaf, Christian P. Schönig, Kai Bartsch, Dusan Gugula, Anna Trenk, Aleksandra Blasiak, Anna Stern, Javier E. Darbon, Pascal Grinevich, Valery Charlet, Alexandre Nat Commun Article The hypothalamic neuropeptide oxytocin (OT) exerts prominent analgesic effects via central and peripheral action. However, the precise analgesic pathways recruited by OT are largely elusive. Here we discovered a subset of OT neurons whose projections preferentially terminate on OT receptor (OTR)-expressing neurons in the ventrolateral periaqueductal gray (vlPAG). Using a newly generated line of transgenic rats (OTR-IRES-Cre), we determined that most of the vlPAG OTR expressing cells targeted by OT projections are GABAergic. Ex vivo stimulation of parvocellular OT axons in the vlPAG induced local OT release, as measured with OT sensor GRAB. In vivo, optogenetically-evoked axonal OT release in the vlPAG of as well as chemogenetic activation of OTR vlPAG neurons resulted in a long-lasting increase of vlPAG neuronal activity. This lead to an indirect suppression of sensory neuron activity in the spinal cord and strong analgesia in both female and male rats. Altogether, we describe an OT-vlPAG-spinal cord circuit that is critical for analgesia in both inflammatory and neuropathic pain models. Nature Publishing Group UK 2023-02-24 /pmc/articles/PMC9958129/ /pubmed/36828816 http://dx.doi.org/10.1038/s41467-023-36641-7 Text en © The Author(s) 2023 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Article
Iwasaki, Mai
Lefevre, Arthur
Althammer, Ferdinand
Clauss Creusot, Etienne
Łąpieś, Olga
Petitjean, Hugues
Hilfiger, Louis
Kerspern, Damien
Melchior, Meggane
Küppers, Stephanie
Krabichler, Quirin
Patwell, Ryan
Kania, Alan
Gruber, Tim
Kirchner, Matthew K.
Wimmer, Moritz
Fröhlich, Henning
Dötsch, Laura
Schimmer, Jonas
Herpertz, Sabine C.
Ditzen, Beate
Schaaf, Christian P.
Schönig, Kai
Bartsch, Dusan
Gugula, Anna
Trenk, Aleksandra
Blasiak, Anna
Stern, Javier E.
Darbon, Pascal
Grinevich, Valery
Charlet, Alexandre
An analgesic pathway from parvocellular oxytocin neurons to the periaqueductal gray in rats
title An analgesic pathway from parvocellular oxytocin neurons to the periaqueductal gray in rats
title_full An analgesic pathway from parvocellular oxytocin neurons to the periaqueductal gray in rats
title_fullStr An analgesic pathway from parvocellular oxytocin neurons to the periaqueductal gray in rats
title_full_unstemmed An analgesic pathway from parvocellular oxytocin neurons to the periaqueductal gray in rats
title_short An analgesic pathway from parvocellular oxytocin neurons to the periaqueductal gray in rats
title_sort analgesic pathway from parvocellular oxytocin neurons to the periaqueductal gray in rats
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9958129/
https://www.ncbi.nlm.nih.gov/pubmed/36828816
http://dx.doi.org/10.1038/s41467-023-36641-7
work_keys_str_mv AT iwasakimai ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT lefevrearthur ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT althammerferdinand ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT clausscreusotetienne ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT łapiesolga ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT petitjeanhugues ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT hilfigerlouis ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT kersperndamien ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT melchiormeggane ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT kuppersstephanie ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT krabichlerquirin ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT patwellryan ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT kaniaalan ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT grubertim ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT kirchnermatthewk ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT wimmermoritz ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT frohlichhenning ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT dotschlaura ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT schimmerjonas ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT herpertzsabinec ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT ditzenbeate ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT schaafchristianp ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT schonigkai ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT bartschdusan ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT gugulaanna ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT trenkaleksandra ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT blasiakanna ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT sternjaviere ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT darbonpascal ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT grinevichvalery ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT charletalexandre ananalgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT iwasakimai analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT lefevrearthur analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT althammerferdinand analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT clausscreusotetienne analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT łapiesolga analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT petitjeanhugues analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT hilfigerlouis analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT kersperndamien analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT melchiormeggane analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT kuppersstephanie analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT krabichlerquirin analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT patwellryan analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT kaniaalan analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT grubertim analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT kirchnermatthewk analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT wimmermoritz analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT frohlichhenning analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT dotschlaura analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT schimmerjonas analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT herpertzsabinec analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT ditzenbeate analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT schaafchristianp analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT schonigkai analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT bartschdusan analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT gugulaanna analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT trenkaleksandra analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT blasiakanna analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT sternjaviere analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT darbonpascal analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT grinevichvalery analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats
AT charletalexandre analgesicpathwayfromparvocellularoxytocinneuronstotheperiaqueductalgrayinrats

Ejemplares similares