The cephalic phase of insulin release is modulated by IL-1β

Sophia J. Wiedemann; Kelly Trimigliozzi; Erez Dror; Daniel T. Meier; Jose Alberto Molina-Tijeras; Leila Rachid; Christelle Le Foll; Christophe Magnan; Friederike Schulze; Marc Stawiski; Stéphanie P. Häuselmann; Hélène Méreau; Marianne Böni-Schnetzler; Marc Y. Donath

doi:10.1016/j.cmet.2022.06.001

The cephalic phase of insulin release is modulated by IL-1β

Sophia J. Wiedemann^*
, Kelly Trimigliozzi
, Erez Dror
, Daniel T. Meier
, Jose Alberto Molina-Tijeras
, Leila Rachid
, Christelle Le Foll
, Christophe Magnan
, Friederike Schulze
, Marc Stawiski
, Stéphanie P. Häuselmann
, Hélène Méreau
, Marianne Böni-Schnetzler
, Marc Y. Donath

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

46 Scopus citations

Abstract

The initial cephalic phase of insulin secretion is mediated through the vagus nerve and is not due to glycemic stimulation of pancreatic β cells. Recently, IL-1β was shown to stimulate postprandial insulin secretion. Here, we describe that this incretin-like effect of IL-1β involves neuronal transmission. Furthermore, we found that cephalic phase insulin release was mediated by IL-1β originating from microglia. Moreover, IL-1β activated the vagus nerve to induce insulin secretion and regulated the activity of the hypothalamus in response to cephalic stimulation. Notably, cephalic phase insulin release was impaired in obesity, in both mice and humans, and in mice, this was due to dysregulated IL-1β signaling. Our findings attribute a regulatory role to IL-1β in the integration of nutrient-derived sensory information, subsequent neuronally mediated insulin secretion, and the dysregulation of autonomic cephalic phase responses in obesity.

Original language	English
Pages (from-to)	991-1003.e6
Journal	Cell Metabolism
Volume	34
Issue number	7
DOIs	https://doi.org/10.1016/j.cmet.2022.06.001
State	Published - 5 Jul 2022
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2022 The Authors

Keywords

CX3CR1+ cells
IL-1β
cephalic phase
inflammation
insulin
microglia
nutrition
obesity

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.cmet.2022.06.001

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title = "The cephalic phase of insulin release is modulated by IL-1β",

abstract = "The initial cephalic phase of insulin secretion is mediated through the vagus nerve and is not due to glycemic stimulation of pancreatic β cells. Recently, IL-1β was shown to stimulate postprandial insulin secretion. Here, we describe that this incretin-like effect of IL-1β involves neuronal transmission. Furthermore, we found that cephalic phase insulin release was mediated by IL-1β originating from microglia. Moreover, IL-1β activated the vagus nerve to induce insulin secretion and regulated the activity of the hypothalamus in response to cephalic stimulation. Notably, cephalic phase insulin release was impaired in obesity, in both mice and humans, and in mice, this was due to dysregulated IL-1β signaling. Our findings attribute a regulatory role to IL-1β in the integration of nutrient-derived sensory information, subsequent neuronally mediated insulin secretion, and the dysregulation of autonomic cephalic phase responses in obesity.",

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doi = "10.1016/j.cmet.2022.06.001",

language = "אנגלית",

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AU - Wiedemann, Sophia J.

AU - Trimigliozzi, Kelly

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AU - Meier, Daniel T.

AU - Molina-Tijeras, Jose Alberto

AU - Rachid, Leila

AU - Le Foll, Christelle

AU - Magnan, Christophe

AU - Schulze, Friederike

AU - Stawiski, Marc

AU - Häuselmann, Stéphanie P.

AU - Méreau, Hélène

AU - Böni-Schnetzler, Marianne

AU - Donath, Marc Y.

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Y1 - 2022/7/5

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AB - The initial cephalic phase of insulin secretion is mediated through the vagus nerve and is not due to glycemic stimulation of pancreatic β cells. Recently, IL-1β was shown to stimulate postprandial insulin secretion. Here, we describe that this incretin-like effect of IL-1β involves neuronal transmission. Furthermore, we found that cephalic phase insulin release was mediated by IL-1β originating from microglia. Moreover, IL-1β activated the vagus nerve to induce insulin secretion and regulated the activity of the hypothalamus in response to cephalic stimulation. Notably, cephalic phase insulin release was impaired in obesity, in both mice and humans, and in mice, this was due to dysregulated IL-1β signaling. Our findings attribute a regulatory role to IL-1β in the integration of nutrient-derived sensory information, subsequent neuronally mediated insulin secretion, and the dysregulation of autonomic cephalic phase responses in obesity.

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KW - IL-1β

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KW - inflammation

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KW - microglia

KW - nutrition

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The cephalic phase of insulin release is modulated by IL-1β

Abstract

Bibliographical note

Keywords

UN SDGs

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