Brd4 modulates diet-induced obesity via PPARγ-dependent Gdf3 expression in adipose tissue macrophages
Xiangming Hu, Xingchen Dong, Guo Li, Yanheng Chen, Jinjing Chen, Xiaoxin He, Hao Sun, Dong-Hyun Kim, Jongsook Kim Kemper, Lin-Feng Chen
Xiangming Hu, Xingchen Dong, Guo Li, Yanheng Chen, Jinjing Chen, Xiaoxin He, Hao Sun, Dong-Hyun Kim, Jongsook Kim Kemper, Lin-Feng Chen
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Research Article Metabolism

Brd4 modulates diet-induced obesity via PPARγ-dependent Gdf3 expression in adipose tissue macrophages

Abstract

Macrophage-mediated inflammatory response has been implicated in the pathogenesis of obesity and insulin resistance. Brd4 has emerged as a key regulator in the innate immune response. However, the role of Brd4 in obesity-associated inflammation and insulin resistance remains uncharacterized. Here, we demonstrated that myeloid lineage-specific Brd4 knockout (Brd4-CKO) mice were protected from high-fat diet–induced (HFD-induced) obesity with less fat accumulation, higher energy expenditure, and increased lipolysis in adipose tissue. Brd4-CKO mice fed a HFD also displayed reduced local and systemic inflammation with improved insulin sensitivity. RNA-Seq of adipose tissue macrophages (ATMs) from HFD-fed WT and Brd4-CKO mice revealed that expression of antilipolytic factor Gdf3 was significantly decreased in ATMs of Brd4-CKO mice. We also found that Brd4 bound to the promoter and enhancers of Gdf3 to facilitate PPARγ-dependent Gdf3 expression in macrophages. Furthermore, Brd4-mediated expression of Gdf3 acted as a paracrine signal targeting adipocytes to suppress the expression of lipases and the associated lipolysis in cultured cells and mice. Controlling the expression of Gdf3 in ATMs could be one of the mechanisms by which Brd4 modulates lipid metabolism and diet-induced obesity. This study suggests that Brd4 could be a potential therapeutic target for obesity and insulin resistance.

Authors

Xiangming Hu, Xingchen Dong, Guo Li, Yanheng Chen, Jinjing Chen, Xiaoxin He, Hao Sun, Dong-Hyun Kim, Jongsook Kim Kemper, Lin-Feng Chen

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Figure 2

Brd4-CKO mice had improved insulin sensitivity and reduced inflammation in response to HFD.

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Brd4-CKO mice had improved insulin sensitivity and reduced inflammation...
Plasma glucose levels during GTT (A) and ITT (B) in WT or Brd4-CKO mice fed a ND or a HFD for 18 weeks. (C) Immunoblotting of p-AKT and total AKT in liver, muscle, and adipose tissue of overnight fasting WT or Brd4-CKO mice fed a HFD for 20 weeks with saline or insulin (1 unit/kg) injection. Ratios of p-AKT to total AKT were determined by densitometry using ImageJ. (D) ELISA assay of MCP-1, IL-6, and TNF-α levels in plasma of WT or Brd4-CKO mice fed a ND or a HFD for 20 weeks. (E) ELISA assay of MCP-1, IL-6, and TNF-α levels in eWAT of WT or Brd4-CKO mice fed a ND or a HFD for 20 weeks. (F) mRNA levels of Tnfa, Il6, and Mcp1 were measured by real-time PCR in eWAT of WT or Brd4-CKO mice fed a ND or a HFD for 20 weeks. (G) M1 (CD11c+ CD301-) and M2 (CD11c- CD301+) macrophages in ATMs of WT and Brd4-CKO mice fed a HFD. Gating strategies to determine M1-type and M2-type ATMs are depicted in Methods. (H) Percentages of M1-type, M2-type ATMs and the ratio of M1 and M2 ATMs in eWAT of WT and Brd4-CKO mice fed a HFD. Data are mean and SD and are determined by an unpaired 2-tailed Student’s t test (A, B, and H) or 1-way ANOVA (DF). n = 3–15 mice as indicated. *P < 0.05, **P < 0.01, ***P < 0.001, ns, statistically not significant. Brd4-CKO, myeloid lineage-specific Brd4 knockout; HFD, high-fat diet–induced; ND, normal diet; GTT, glucose tolerance test; ITT, insulin tolerance test; eWAT, epididymal WAT; ATMs, adipose tissue macrophages.