Skeletal muscle-specific activation of Gq signaling maintains glucose homeostasis

Derek B J Bone; Jaroslawna Meister; Jonas Roland Knudsen; Diptadip Dattaroy; Amanda Cohen; Regina Lee; Huiyan Lu; Daniel Metzger; Thomas Elbenhardt Jensen; Jürgen Wess

doi:10.2337/db18-0796

Skeletal muscle-specific activation of G_q signaling maintains glucose homeostasis

Derek B J Bone, Jaroslawna Meister, Jonas Roland Knudsen, Diptadip Dattaroy, Amanda Cohen, Regina Lee, Huiyan Lu, Daniel Metzger, Thomas Elbenhardt Jensen, Jürgen Wess^*

^*Corresponding author for this work

The August Krogh Section for Molecular Physiology

6 Citations (Scopus)

Abstract

Skeletal muscle (SKM) insulin resistance plays a central role in the pathogenesis of type 2 diabetes. Because G-protein–coupled receptors (GPCRs) represent excellent drug targets, we hypothesized that activation of specific functional classes of SKM GPCRs might lead to improved glucose homeostasis in type 2 diabetes. At present, little is known about the in vivo metabolic roles of the various distinct GPCR signaling pathways operative in SKM. In this study, we tested the hypothesis that selective activation of SKM G_q signaling can improve SKM glucose uptake and whole-body glucose homeostasis under physiological and pathophysiological conditions. Studies with transgenic mice expressing a G_q-linked designer GPCR selectively in SKM cells demonstrated that receptor-mediated activation of SKM G_q signaling greatly promoted glucose uptake into SKM and significantly improved glucose homeostasis in obese, glucose-intolerant mice. These beneficial metabolic effects required the activity of SKM AMPK. In contrast, obese mutant mice that lacked both Ga_q and Ga₁₁ selectively in SKM showed severe deficits in glucose homeostasis. Moreover, GPCR-mediated activation of G_q signaling also stimulated glucose uptake in primary human SKM cells. Taken together, these findings strongly suggest that agents capable of enhancing SKM G_q signaling may prove useful as novel antidiabetic drugs.

Original language	English
Journal	Diabetes
Volume	68
Issue number	6
Pages (from-to)	1341-1352
Number of pages	12
ISSN	0012-1797
DOIs	https://doi.org/10.2337/db18-0796
Publication status	Published - 1 Jun 2019

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@article{e4cbe885974d498aa91638efed647a17,

title = "Skeletal muscle-specific activation of Gq signaling maintains glucose homeostasis",

abstract = "Skeletal muscle (SKM) insulin resistance plays a central role in the pathogenesis of type 2 diabetes. Because G-protein–coupled receptors (GPCRs) represent excellent drug targets, we hypothesized that activation of specific functional classes of SKM GPCRs might lead to improved glucose homeostasis in type 2 diabetes. At present, little is known about the in vivo metabolic roles of the various distinct GPCR signaling pathways operative in SKM. In this study, we tested the hypothesis that selective activation of SKM Gq signaling can improve SKM glucose uptake and whole-body glucose homeostasis under physiological and pathophysiological conditions. Studies with transgenic mice expressing a Gq-linked designer GPCR selectively in SKM cells demonstrated that receptor-mediated activation of SKM Gq signaling greatly promoted glucose uptake into SKM and significantly improved glucose homeostasis in obese, glucose-intolerant mice. These beneficial metabolic effects required the activity of SKM AMPK. In contrast, obese mutant mice that lacked both Gaq and Ga11 selectively in SKM showed severe deficits in glucose homeostasis. Moreover, GPCR-mediated activation of Gq signaling also stimulated glucose uptake in primary human SKM cells. Taken together, these findings strongly suggest that agents capable of enhancing SKM Gq signaling may prove useful as novel antidiabetic drugs.",

author = "Bone, {Derek B J} and Jaroslawna Meister and Knudsen, {Jonas Roland} and Diptadip Dattaroy and Amanda Cohen and Regina Lee and Huiyan Lu and Daniel Metzger and Jensen, {Thomas Elbenhardt} and J{\"u}rgen Wess",

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T1 - Skeletal muscle-specific activation of Gq signaling maintains glucose homeostasis

AU - Bone, Derek B J

AU - Meister, Jaroslawna

AU - Knudsen, Jonas Roland

AU - Dattaroy, Diptadip

AU - Cohen, Amanda

AU - Lee, Regina

AU - Lu, Huiyan

AU - Metzger, Daniel

AU - Jensen, Thomas Elbenhardt

AU - Wess, Jürgen

PY - 2019/6/1

Y1 - 2019/6/1

N2 - Skeletal muscle (SKM) insulin resistance plays a central role in the pathogenesis of type 2 diabetes. Because G-protein–coupled receptors (GPCRs) represent excellent drug targets, we hypothesized that activation of specific functional classes of SKM GPCRs might lead to improved glucose homeostasis in type 2 diabetes. At present, little is known about the in vivo metabolic roles of the various distinct GPCR signaling pathways operative in SKM. In this study, we tested the hypothesis that selective activation of SKM Gq signaling can improve SKM glucose uptake and whole-body glucose homeostasis under physiological and pathophysiological conditions. Studies with transgenic mice expressing a Gq-linked designer GPCR selectively in SKM cells demonstrated that receptor-mediated activation of SKM Gq signaling greatly promoted glucose uptake into SKM and significantly improved glucose homeostasis in obese, glucose-intolerant mice. These beneficial metabolic effects required the activity of SKM AMPK. In contrast, obese mutant mice that lacked both Gaq and Ga11 selectively in SKM showed severe deficits in glucose homeostasis. Moreover, GPCR-mediated activation of Gq signaling also stimulated glucose uptake in primary human SKM cells. Taken together, these findings strongly suggest that agents capable of enhancing SKM Gq signaling may prove useful as novel antidiabetic drugs.

AB - Skeletal muscle (SKM) insulin resistance plays a central role in the pathogenesis of type 2 diabetes. Because G-protein–coupled receptors (GPCRs) represent excellent drug targets, we hypothesized that activation of specific functional classes of SKM GPCRs might lead to improved glucose homeostasis in type 2 diabetes. At present, little is known about the in vivo metabolic roles of the various distinct GPCR signaling pathways operative in SKM. In this study, we tested the hypothesis that selective activation of SKM Gq signaling can improve SKM glucose uptake and whole-body glucose homeostasis under physiological and pathophysiological conditions. Studies with transgenic mice expressing a Gq-linked designer GPCR selectively in SKM cells demonstrated that receptor-mediated activation of SKM Gq signaling greatly promoted glucose uptake into SKM and significantly improved glucose homeostasis in obese, glucose-intolerant mice. These beneficial metabolic effects required the activity of SKM AMPK. In contrast, obese mutant mice that lacked both Gaq and Ga11 selectively in SKM showed severe deficits in glucose homeostasis. Moreover, GPCR-mediated activation of Gq signaling also stimulated glucose uptake in primary human SKM cells. Taken together, these findings strongly suggest that agents capable of enhancing SKM Gq signaling may prove useful as novel antidiabetic drugs.

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