Adipocyte-derived PGE2 is required for intermittent fasting–induced Treg proliferation and improvement of insulin sensitivity
Chunqing Wang, … , Xuexian O. Yang, Meilian Liu
Chunqing Wang, … , Xuexian O. Yang, Meilian Liu
Published March 8, 2022
Citation Information: JCI Insight. 2022;7(5):e153755. https://doi.org/10.1172/jci.insight.153755.
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Research Article Metabolism

Adipocyte-derived PGE2 is required for intermittent fasting–induced Treg proliferation and improvement of insulin sensitivity

Abstract

The intermittent fasting (IF) diet has profound benefits for diabetes prevention. However, the precise mechanisms underlying IF’s beneficial effects remain poorly defined. Here, we show that the expression levels of cyclooxygenase-2 (COX-2), an enzyme that produces prostaglandins, are suppressed in white adipose tissue (WAT) of obese humans. In addition, the expression of COX-2 in WAT is markedly upregulated by IF in obese mice. Adipocyte-specific depletion of COX-2 led to reduced fractions of CD4+Foxp3+ Tregs and a substantial decrease in the frequency of CD206+ macrophages, an increase in the abundance of γδT cells in WAT under normal chow diet conditions, and attenuation of IF-induced antiinflammatory and insulin-sensitizing effects, despite a similar antiobesity effect in obese mice. Mechanistically, adipocyte-derived prostaglandin E2 (PGE2) promoted Treg proliferation through the CaMKII pathway in vitro and rescued Treg populations in adipose tissue in COX-2–deficient mice. Ultimately, inactivation of Tregs by neutralizing anti-CD25 diminished IF-elicited antiinflammatory and insulin-sensitizing effects, and PGE2 restored the beneficial effects of IF in COX-2–KO mice. Collectively, our study reveals that adipocyte COX-2 is a key regulator of Treg proliferation and that adipocyte-derived PGE2 is essential for IF-elicited type 2 immune response and metabolic benefits.

Authors

Chunqing Wang, Xing Zhang, Liping Luo, Yan Luo, Xin Yang, Xiaofeng Ding, Lu Wang, Huyen Le, Lily Elizabeth R. Feldman, Xuebo Men, Cen Yan, Wendong Huang, Yingmei Feng, Feng Liu, Xuexian O. Yang, Meilian Liu

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Figure 3

Deficiency of COX-2 in adipocytes reduces Treg frequency and type 2 immune response in AT.

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Deficiency of COX-2 in adipocytes reduces Treg frequency and type 2 immu...
(A–I) The eWAT samples were collected from 6-month-old male COX-2–KO and control (Ctrl) mice (n = 5–14/group); the stromal vascular fraction of AT was used for flow cytometry analysis. (A) The fraction of resident CD4+Foxp3+ cells was decreased in eWAT of COX-2–KO mice compared with that of Ctrl mice. (B and C) The percentage of CD4+ Foxp3+ cells in total CD4+ cells was decreased in eWAT of COX-2–KO mice compared with that of Ctrl mice. COX-2–KO mice had reduced a Siglec-5CD11b+CD206+ population (D and E) and decreased proportion of CD11b+CD206+ in CD11b+ cells (F) in eWAT. COX-2 deficiency led to an increase in the γδT+CD3+ cell population (G and H) and in the proportion of γδT+CD3+ cells in total CD3+ cells (I) in eWAT. (J) COX-2–KO downregulated mRNA levels of Foxp3, GATA-3 as well as COX-2 in eWAT while upregulating levels of IL-1β and IFN-γ in eWAT despite no significant effect on IL-10, IL-6, and TNF-α. (K and L) The culture medium (CM) from primary COX-2–KO adipocytes decreased the fraction of CD4+Foxp3+ cells and suppressed the percentage of Ki67+ Tregs in total Tregs compared with Ctrl medium. AT Tregs were isolated from AT and treated with the CM from COX-2–KO and Ctrl primary adipocytes for 24 hours. n = 4/group. (M) The medium from primary COX-2–KO adipocytes decreased mRNA levels of Foxp3, Gata3, Il10, and Hpgd without significant effects on Tgfb1 in AT Tregs. (B, C, E, F, and H–M) The t test was used to analyze data for these studies. All data are presented as mean ± SEM. * P < 0.05; **P < 0.01.