GPR92 activation in islet macrophages controls β cell function in a diet-induced obesity model
Camila O. de Souza, … , Rana K. Gupta, Da Young Oh
Camila O. de Souza, … , Rana K. Gupta, Da Young Oh
Published September 6, 2022
Citation Information: J Clin Invest. 2022;132(21):e160097. https://doi.org/10.1172/JCI160097.
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Research Article Inflammation Metabolism

GPR92 activation in islet macrophages controls β cell function in a diet-induced obesity model

Abstract

The molecular mechanisms underlying obesity-induced increases in β cell mass and the resulting β cell dysfunction need to be elucidated further. Our study revealed that GPR92, expressed in islet macrophages, is modulated by dietary interventions in metabolic tissues. Therefore, we aimed to define the role of GPR92 in islet inflammation by using a high-fat diet–induced (HFD-induced) obese mouse model. GPR92-KO mice exhibited glucose intolerance and reduced insulin levels — despite the enlarged pancreatic islets — as well as increased islet macrophage content and inflammation level compared with WT mice. These results indicate that the lack of GPR92 in islet macrophages can cause β cell dysfunction, leading to disrupted glucose homeostasis. Alternatively, stimulation with the GPR92 agonist farnesyl pyrophosphate results in the inhibition of HFD-induced islet inflammation and increased insulin secretion in WT mice, but not in GPR92-KO mice. Thus, our study suggests that GPR92 can be a potential target to alleviate β cell dysfunction via the inhibition of islet inflammation associated with the progression of diabetes.

Authors

Camila O. de Souza, Vivian A. Paschoal, Xuenan Sun, Lavanya Vishvanath, Qianbin Zhang, Mengle Shao, Toshiharu Onodera, Shiuhwei Chen, Nolwenn Joffin, Lorena M.A. Bueno, Rana K. Gupta, Da Young Oh

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Figure 3

GPR92 deficiency triggers proinflammatory responses and increases the expansion of M1-like IMs.

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GPR92 deficiency triggers proinflammatory responses and increases the ex...
(A) Flow cytometry analysis of CD45+ cells in the islets from WT or KO mice on a HFD, n = 6–4/group. (B) CD45 and CD11b double-positive cells (Q4) in the islets from WT and KO mice on a NCD or a HFD, n = 3–4/group. (C) F4/80 and CD11c double-positive cells (Q4) in the islets from WT and KO mice on a NCD or a HFD, n = 3–5/group. (D) Immunofluorescence of the pancreas. Scale bars: 20 μm. (AD) Data and images are representative of at least 3 independent experiments. All data are expressed as mean ± SEM. ***P < 0.001, **P < 0.01, *P < 0.05 by 2-way ANOVA with Bonferroni’s post hoc. (E) Top 15 most-relevant, upregulated (red) and downregulated (blue) genes in the islet from WT versus KO mice on a HFD. Mean values from n = 4–5/group. (F) Volcano plot of the fold change (x axis) versus adjusted (adj.) P value (y axis) of the transcriptomes between the islets from WT and KO mice on a HFD. Genes highlighted in red or blue are based on the thresholds of log2 fold change > 1 and adj. P < 0.05. (G) Pathways of the islets from WT versus KO mice on a HFD that were either activated (red) or repressed (blue) by lack of GPR92. Normalized enrichment score (NES) is represented in log10(P).