Skeletal muscle–targeted delivery of Fgf6 protects mice from diet-induced obesity and insulin resistance
Bo Xu, Caizhi Liu, Hong Zhang, Rong Zhang, Mengyang Tang, Yan Huang, Li Jin, Lingyan Xu, Cheng Hu, Weiping Jia
Bo Xu, Caizhi Liu, Hong Zhang, Rong Zhang, Mengyang Tang, Yan Huang, Li Jin, Lingyan Xu, Cheng Hu, Weiping Jia
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Research Article Metabolism Muscle biology

Skeletal muscle–targeted delivery of Fgf6 protects mice from diet-induced obesity and insulin resistance

Abstract

Obesity, a major health care issue, is characterized by metabolic abnormalities in multiple tissues, including the skeletal muscle. Although dysregulation of skeletal muscle metabolism can strongly influence the homeostasis of systemic energy, the underlying mechanism remains unclear. We found promoter hypermethylation and decreased gene expression of fibroblast growth factor 6 (FGF6) in the skeletal muscle of individuals with obesity using high-throughput sequencing. Reduced binding of the cyclic AMP responsive element binding protein-1 (CREB1) to the hypermethylated cyclic AMP response element, which is a regulatory element upstream of the transcription initiation site, partially contributed to the downregulation of FGF6 in patients with obesity. Overexpression of Fgf6 in mouse skeletal muscle stimulated protein synthesis, activating the mammalian target of rapamycin pathway, and prevented the increase in weight and the development of insulin resistance in high-fat diet–fed mice. Thus, our findings highlight the role played by Fgf6 in regulating skeletal muscle hypertrophy and whole-body metabolism, indicating its potential in strategies aimed at preventing and treating metabolic diseases.

Authors

Bo Xu, Caizhi Liu, Hong Zhang, Rong Zhang, Mengyang Tang, Yan Huang, Li Jin, Lingyan Xu, Cheng Hu, Weiping Jia

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Figure 6

Overexpression of Fgf6 in mice skeletal muscle prevents HFD-induced obesity and enhances whole-body metabolism.

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Overexpression of Fgf6 in mice skeletal muscle prevents HFD-induced obes...
(A) Body weight of mice injected with AAV9-Ctrl or AAV9-FGF6, on either HFD or NCD (n = 12 per group). (B) Body composition analysis of HFD-fed mice, evaluated by EchoMRI (n = 12 per group). Percentage of fat or lean weight was calculated by dividing fat or lean mass by body weight, then multiplying by 100. (C and D) Weight and calculated percentage of weight of inguinal subcutaneous white adipose tissue (iWAT), epididymal white adipose tissue (eWAT), brown adipose tissue (BAT), and liver from AAV9-Ctrl–injected or AAV9-FGF6–injected HFD-fed (C) or NCD-fed (D) mice; n = 11–12 per group. (E and F) GTT (E) and ITT (F) in HFD-fed mice at 10 weeks and 11 weeks, respectively (n = 12–15 per group). AUC, area under the curve. (G and H) The whole-body energy metabolism (G), food intake, and activity (H) of HFD-Ctrl and HFD-FGF6 mice was measured in a comprehensive laboratory animal monitoring system for 48 hours (n = 5 per group). (I) Serum levels of cholesterol (CHOL), triglyceride (TG), and NEFA in HFD-fed mice with or without FGF6 overexpression (n = 5–6 per group). Mice were fasted overnight before blood collection. (J) Quantification of p-AKTSer473 and p-AKTThr308 in gastroc and TA muscles in response to insulin stimulation in HFD-Ctrl and HFD-FGF6 mice (n = 3 per group). Data information: Results are represented as mean ± standard error of mean. Statistical analysis was done using unpaired Student’s t tests or 1-way ANOVA correcting for multiple comparisons by controlling the FDR where appropriate. *P < 0.05, **P < 0.01, ***P < 0.001.