Postprandial macrophage-derived IL-1β stimulates insulin, and both synergistically promote glucose disposal and inflammation

Erez Dror; Elise Dalmas; Daniel T. Meier; Stephan Wueest; Julien Thévenet; Constanze Thienel; Katharina Timper; Thierry M. Nordmann; Shuyang Traub; Friederike Schulze; Flurin Item; David Vallois; Francois Pattou; Julie Kerr-Conte; Vanessa Lavallard; Thierry Berney; Bernard Thorens; Daniel Konrad; Marianne Böni-Schnetzler; Marc Y. Donath

doi:10.1038/ni.3659

Postprandial macrophage-derived IL-1β stimulates insulin, and both synergistically promote glucose disposal and inflammation

Erez Dror, Elise Dalmas, Daniel T. Meier, Stephan Wueest, Julien Thévenet, Constanze Thienel, Katharina Timper, Thierry M. Nordmann, Shuyang Traub, Friederike Schulze, Flurin Item, David Vallois, Francois Pattou, Julie Kerr-Conte, Vanessa Lavallard, Thierry Berney, Bernard Thorens, Daniel Konrad, Marianne Böni-Schnetzler, Marc Y. Donath^*

^*Corresponding author for this work

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

338 Scopus citations

Abstract

The deleterious effect of chronic activation of the IL-1β system on type 2 diabetes and other metabolic diseases is well documented. However, a possible physiological role for IL-1β in glucose metabolism has remained unexplored. Here we found that feeding induced a physiological increase in the number of peritoneal macrophages that secreted IL-1β, in a glucose-dependent manner. Subsequently, IL-1β contributed to the postprandial stimulation of insulin secretion. Accordingly, lack of endogenous IL-1β signaling in mice during refeeding and obesity diminished the concentration of insulin in plasma. IL-1β and insulin increased the uptake of glucose into macrophages, and insulin reinforced a pro-inflammatory pattern via the insulin receptor, glucose metabolism, production of reactive oxygen species, and secretion of IL-1β mediated by the NLRP3 inflammasome. Postprandial inflammation might be limited by normalization of glycemia, since it was prevented by inhibition of the sodium-glucose cotransporter SGLT2. Our findings identify a physiological role for IL-1β and insulin in the regulation of both metabolism and immunity.

Original language	English
Pages (from-to)	283-292
Number of pages	10
Journal	Nature Immunology
Volume	18
Issue number	3
DOIs	https://doi.org/10.1038/ni.3659
State	Published - 15 Feb 2017
Externally published	Yes

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Dror, E., Dalmas, E., Meier, D. T., Wueest, S., Thévenet, J., Thienel, C., Timper, K., Nordmann, T. M., Traub, S., Schulze, F., Item, F., Vallois, D., Pattou, F., Kerr-Conte, J., Lavallard, V., Berney, T., Thorens, B., Konrad, D., Böni-Schnetzler, M., & Donath, M. Y. (2017). Postprandial macrophage-derived IL-1β stimulates insulin, and both synergistically promote glucose disposal and inflammation. Nature Immunology, 18(3), 283-292. https://doi.org/10.1038/ni.3659

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title = "Postprandial macrophage-derived IL-1β stimulates insulin, and both synergistically promote glucose disposal and inflammation",

abstract = "The deleterious effect of chronic activation of the IL-1β system on type 2 diabetes and other metabolic diseases is well documented. However, a possible physiological role for IL-1β in glucose metabolism has remained unexplored. Here we found that feeding induced a physiological increase in the number of peritoneal macrophages that secreted IL-1β, in a glucose-dependent manner. Subsequently, IL-1β contributed to the postprandial stimulation of insulin secretion. Accordingly, lack of endogenous IL-1β signaling in mice during refeeding and obesity diminished the concentration of insulin in plasma. IL-1β and insulin increased the uptake of glucose into macrophages, and insulin reinforced a pro-inflammatory pattern via the insulin receptor, glucose metabolism, production of reactive oxygen species, and secretion of IL-1β mediated by the NLRP3 inflammasome. Postprandial inflammation might be limited by normalization of glycemia, since it was prevented by inhibition of the sodium-glucose cotransporter SGLT2. Our findings identify a physiological role for IL-1β and insulin in the regulation of both metabolism and immunity.",

author = "Erez Dror and Elise Dalmas and Meier, \{Daniel T.\} and Stephan Wueest and Julien Th{\'e}venet and Constanze Thienel and Katharina Timper and Nordmann, \{Thierry M.\} and Shuyang Traub and Friederike Schulze and Flurin Item and David Vallois and Francois Pattou and Julie Kerr-Conte and Vanessa Lavallard and Thierry Berney and Bernard Thorens and Daniel Konrad and Marianne B{\"o}ni-Schnetzler and Donath, \{Marc Y.\}",

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doi = "10.1038/ni.3659",

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Dror, E, Dalmas, E, Meier, DT, Wueest, S, Thévenet, J, Thienel, C, Timper, K, Nordmann, TM, Traub, S, Schulze, F, Item, F, Vallois, D, Pattou, F, Kerr-Conte, J, Lavallard, V, Berney, T, Thorens, B, Konrad, D, Böni-Schnetzler, M & Donath, MY 2017, 'Postprandial macrophage-derived IL-1β stimulates insulin, and both synergistically promote glucose disposal and inflammation', Nature Immunology, vol. 18, no. 3, pp. 283-292. https://doi.org/10.1038/ni.3659

TY - JOUR

T1 - Postprandial macrophage-derived IL-1β stimulates insulin, and both synergistically promote glucose disposal and inflammation

AU - Dror, Erez

AU - Dalmas, Elise

AU - Meier, Daniel T.

AU - Wueest, Stephan

AU - Thévenet, Julien

AU - Thienel, Constanze

AU - Timper, Katharina

AU - Nordmann, Thierry M.

AU - Traub, Shuyang

AU - Schulze, Friederike

AU - Item, Flurin

AU - Vallois, David

AU - Pattou, Francois

AU - Kerr-Conte, Julie

AU - Lavallard, Vanessa

AU - Berney, Thierry

AU - Thorens, Bernard

AU - Konrad, Daniel

AU - Böni-Schnetzler, Marianne

AU - Donath, Marc Y.

PY - 2017/2/15

Y1 - 2017/2/15

N2 - The deleterious effect of chronic activation of the IL-1β system on type 2 diabetes and other metabolic diseases is well documented. However, a possible physiological role for IL-1β in glucose metabolism has remained unexplored. Here we found that feeding induced a physiological increase in the number of peritoneal macrophages that secreted IL-1β, in a glucose-dependent manner. Subsequently, IL-1β contributed to the postprandial stimulation of insulin secretion. Accordingly, lack of endogenous IL-1β signaling in mice during refeeding and obesity diminished the concentration of insulin in plasma. IL-1β and insulin increased the uptake of glucose into macrophages, and insulin reinforced a pro-inflammatory pattern via the insulin receptor, glucose metabolism, production of reactive oxygen species, and secretion of IL-1β mediated by the NLRP3 inflammasome. Postprandial inflammation might be limited by normalization of glycemia, since it was prevented by inhibition of the sodium-glucose cotransporter SGLT2. Our findings identify a physiological role for IL-1β and insulin in the regulation of both metabolism and immunity.

AB - The deleterious effect of chronic activation of the IL-1β system on type 2 diabetes and other metabolic diseases is well documented. However, a possible physiological role for IL-1β in glucose metabolism has remained unexplored. Here we found that feeding induced a physiological increase in the number of peritoneal macrophages that secreted IL-1β, in a glucose-dependent manner. Subsequently, IL-1β contributed to the postprandial stimulation of insulin secretion. Accordingly, lack of endogenous IL-1β signaling in mice during refeeding and obesity diminished the concentration of insulin in plasma. IL-1β and insulin increased the uptake of glucose into macrophages, and insulin reinforced a pro-inflammatory pattern via the insulin receptor, glucose metabolism, production of reactive oxygen species, and secretion of IL-1β mediated by the NLRP3 inflammasome. Postprandial inflammation might be limited by normalization of glycemia, since it was prevented by inhibition of the sodium-glucose cotransporter SGLT2. Our findings identify a physiological role for IL-1β and insulin in the regulation of both metabolism and immunity.

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ER -

Postprandial macrophage-derived IL-1β stimulates insulin, and both synergistically promote glucose disposal and inflammation

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