High-calorie diets uncouple hypothalamic oxytocin neurons from a gut-to-brain satiation pathway via κ-opioid signaling

Oxytocin-expressing paraventricular hypothalamic neurons (PVN(OT) neurons) integrate afferent signals from the gut, including cholecystokinin (CCK), to adjust whole-body energy homeostasis. However, the molecular underpinnings by which PVN(OT) neurons orchestrate gut-to-brain feeding control remain...

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Autores principales: Gruber, Tim, Lechner, Franziska, Murat, Cahuê, Contreras, Raian E., Sanchez-Quant, Eva, Miok, Viktorian, Makris, Konstantinos, Le Thuc, Ophélia, González-García, Ismael, García-Clave, Elena, Althammer, Ferdinand, Krabichler, Quirin, DeCamp, Lisa M., Jones, Russell G., Lutter, Dominik, Williams, Rhiannan H., Pfluger, Paul T., Müller, Timo D., Woods, Stephen C., Pospisilik, John Andrew, Martinez-Jimenez, Celia P., Tschöp, Matthias H., Grinevich, Valery, García-Cáceres, Cristina
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cell Press 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10636643/
https://www.ncbi.nlm.nih.gov/pubmed/37864798
http://dx.doi.org/10.1016/j.celrep.2023.113305
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author Gruber, Tim
Lechner, Franziska
Murat, Cahuê
Contreras, Raian E.
Sanchez-Quant, Eva
Miok, Viktorian
Makris, Konstantinos
Le Thuc, Ophélia
González-García, Ismael
García-Clave, Elena
Althammer, Ferdinand
Krabichler, Quirin
DeCamp, Lisa M.
Jones, Russell G.
Lutter, Dominik
Williams, Rhiannan H.
Pfluger, Paul T.
Müller, Timo D.
Woods, Stephen C.
Pospisilik, John Andrew
Martinez-Jimenez, Celia P.
Tschöp, Matthias H.
Grinevich, Valery
García-Cáceres, Cristina
author_facet Gruber, Tim
Lechner, Franziska
Murat, Cahuê
Contreras, Raian E.
Sanchez-Quant, Eva
Miok, Viktorian
Makris, Konstantinos
Le Thuc, Ophélia
González-García, Ismael
García-Clave, Elena
Althammer, Ferdinand
Krabichler, Quirin
DeCamp, Lisa M.
Jones, Russell G.
Lutter, Dominik
Williams, Rhiannan H.
Pfluger, Paul T.
Müller, Timo D.
Woods, Stephen C.
Pospisilik, John Andrew
Martinez-Jimenez, Celia P.
Tschöp, Matthias H.
Grinevich, Valery
García-Cáceres, Cristina
author_sort Gruber, Tim
collection PubMed
description Oxytocin-expressing paraventricular hypothalamic neurons (PVN(OT) neurons) integrate afferent signals from the gut, including cholecystokinin (CCK), to adjust whole-body energy homeostasis. However, the molecular underpinnings by which PVN(OT) neurons orchestrate gut-to-brain feeding control remain unclear. Here, we show that mice undergoing selective ablation of PVN(OT) neurons fail to reduce food intake in response to CCK and develop hyperphagic obesity on a chow diet. Notably, exposing wild-type mice to a high-fat/high-sugar (HFHS) diet recapitulates this insensitivity toward CCK, which is linked to diet-induced transcriptional and electrophysiological aberrations specifically in PVN(OT) neurons. Restoring OT pathways in diet-induced obese (DIO) mice via chemogenetics or polypharmacology sufficiently re-establishes CCK’s anorexigenic effects. Last, by single-cell profiling, we identify a specialized PVN(OT) neuronal subpopulation with increased κ-opioid signaling under an HFHS diet, which restrains their CCK-evoked activation. In sum, we document a (patho)mechanism by which PVN(OT) signaling uncouples a gut-brain satiation pathway under obesogenic conditions.
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spelling pubmed-106366432023-11-14 High-calorie diets uncouple hypothalamic oxytocin neurons from a gut-to-brain satiation pathway via κ-opioid signaling Gruber, Tim Lechner, Franziska Murat, Cahuê Contreras, Raian E. Sanchez-Quant, Eva Miok, Viktorian Makris, Konstantinos Le Thuc, Ophélia González-García, Ismael García-Clave, Elena Althammer, Ferdinand Krabichler, Quirin DeCamp, Lisa M. Jones, Russell G. Lutter, Dominik Williams, Rhiannan H. Pfluger, Paul T. Müller, Timo D. Woods, Stephen C. Pospisilik, John Andrew Martinez-Jimenez, Celia P. Tschöp, Matthias H. Grinevich, Valery García-Cáceres, Cristina Cell Rep Article Oxytocin-expressing paraventricular hypothalamic neurons (PVN(OT) neurons) integrate afferent signals from the gut, including cholecystokinin (CCK), to adjust whole-body energy homeostasis. However, the molecular underpinnings by which PVN(OT) neurons orchestrate gut-to-brain feeding control remain unclear. Here, we show that mice undergoing selective ablation of PVN(OT) neurons fail to reduce food intake in response to CCK and develop hyperphagic obesity on a chow diet. Notably, exposing wild-type mice to a high-fat/high-sugar (HFHS) diet recapitulates this insensitivity toward CCK, which is linked to diet-induced transcriptional and electrophysiological aberrations specifically in PVN(OT) neurons. Restoring OT pathways in diet-induced obese (DIO) mice via chemogenetics or polypharmacology sufficiently re-establishes CCK’s anorexigenic effects. Last, by single-cell profiling, we identify a specialized PVN(OT) neuronal subpopulation with increased κ-opioid signaling under an HFHS diet, which restrains their CCK-evoked activation. In sum, we document a (patho)mechanism by which PVN(OT) signaling uncouples a gut-brain satiation pathway under obesogenic conditions. Cell Press 2023-10-31 /pmc/articles/PMC10636643/ /pubmed/37864798 http://dx.doi.org/10.1016/j.celrep.2023.113305 Text en © 2023 The Author(s) https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Article
Gruber, Tim
Lechner, Franziska
Murat, Cahuê
Contreras, Raian E.
Sanchez-Quant, Eva
Miok, Viktorian
Makris, Konstantinos
Le Thuc, Ophélia
González-García, Ismael
García-Clave, Elena
Althammer, Ferdinand
Krabichler, Quirin
DeCamp, Lisa M.
Jones, Russell G.
Lutter, Dominik
Williams, Rhiannan H.
Pfluger, Paul T.
Müller, Timo D.
Woods, Stephen C.
Pospisilik, John Andrew
Martinez-Jimenez, Celia P.
Tschöp, Matthias H.
Grinevich, Valery
García-Cáceres, Cristina
High-calorie diets uncouple hypothalamic oxytocin neurons from a gut-to-brain satiation pathway via κ-opioid signaling
title High-calorie diets uncouple hypothalamic oxytocin neurons from a gut-to-brain satiation pathway via κ-opioid signaling
title_full High-calorie diets uncouple hypothalamic oxytocin neurons from a gut-to-brain satiation pathway via κ-opioid signaling
title_fullStr High-calorie diets uncouple hypothalamic oxytocin neurons from a gut-to-brain satiation pathway via κ-opioid signaling
title_full_unstemmed High-calorie diets uncouple hypothalamic oxytocin neurons from a gut-to-brain satiation pathway via κ-opioid signaling
title_short High-calorie diets uncouple hypothalamic oxytocin neurons from a gut-to-brain satiation pathway via κ-opioid signaling
title_sort high-calorie diets uncouple hypothalamic oxytocin neurons from a gut-to-brain satiation pathway via κ-opioid signaling
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10636643/
https://www.ncbi.nlm.nih.gov/pubmed/37864798
http://dx.doi.org/10.1016/j.celrep.2023.113305
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