FGF21 controls hepatic lipid metabolism via sex-dependent interorgan crosstalk
Aki T. Chaffin, Karlton R. Larson, Kuei-Pin Huang, Chih-Ting Wu, Nadejda Godoroja, Yanbin Fang, Devi Jayakrishnan, Karla A. Soto Sauza, Landon C. Sims, Niloufar Mohajerani, Michael L. Goodson, Karen K. Ryan
Aki T. Chaffin, Karlton R. Larson, Kuei-Pin Huang, Chih-Ting Wu, Nadejda Godoroja, Yanbin Fang, Devi Jayakrishnan, Karla A. Soto Sauza, Landon C. Sims, Niloufar Mohajerani, Michael L. Goodson, Karen K. Ryan
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Research Article Endocrinology Hepatology

FGF21 controls hepatic lipid metabolism via sex-dependent interorgan crosstalk

Abstract

The liver regulates energy partitioning and use in a sex-dependent manner, coupling hepatic substrate availability to female reproductive status. Fibroblast growth factor 21 (FGF21) is a hepatokine produced in response to metabolic stress that adaptively directs systemic metabolism and substrate use to reduce hepatic lipid storage. Here we report that FGF21 altered hepatic transcriptional and metabolic responses, and reduced liver triglycerides, in a sex-dependent manner. FGF21 decreased hepatic triglycerides in obese male mice in a weight loss–independent manner; this was abrogated among female littermates. The effect of FGF21 on hepatosteatosis is thought to derive, in part, from increased adiponectin secretion. Accordingly, plasma adiponectin and its upstream adrenergic receptor → cAMP → exchange protein directly activated by cAMP signaling pathway was stimulated by FGF21 in males and inhibited in females. Both ovariectomized and reproductively senescent old females responded to FGF21 treatment by decreasing body weight, but liver triglycerides and adiponectin remained unchanged. Thus, the benefit of FGF21 treatment for improving hepatosteatosis depends on sex but not on a functional female reproductive system. Because FGF21 provides a downstream mechanism contributing to several metabolic interventions, and given its direct clinical importance, these findings may have broad implications for the targeted application of nutritional and pharmacological treatments for metabolic disease.

Authors

Aki T. Chaffin, Karlton R. Larson, Kuei-Pin Huang, Chih-Ting Wu, Nadejda Godoroja, Yanbin Fang, Devi Jayakrishnan, Karla A. Soto Sauza, Landon C. Sims, Niloufar Mohajerani, Michael L. Goodson, Karen K. Ryan

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Figure 3

Effects of FGF21 on liver triglycerides are sex dependent, and this does not depend on body weight loss.

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Effects of FGF21 on liver triglycerides are sex dependent, and this does...
FGF21 (0.1 mg/kg twice daily, i.p., 12 days) decreased liver triglycerides in DIO male but not female mice (A). In a separate experiment, DIO male mice were assigned to ad libitum–fed + vehicle, ad libitum–fed + FGF21, or a weight-matched group, in which caloric intake was restricted (D) to match the weight loss observed by FGF21-treated mice (B and C). Compared with vehicle-treated mice, FGF21 treatment decreased liver triglycerides, but weight matching did not, despite weight-matched mice losing the same amount of weight as FGF21-treated mice (E). In another experiment, a higher dose of FGF21 (1 mg/kg once daily, sc, 5 days) administered to DIO female mice again increased food intake (H) but did not decrease body weight (F and G), feed efficiency (I), or liver triglycerides (J). Next, to identify metabolic pathways contributing to the sex-dependent change in liver triglycerides (A), transcriptomic and metabolomics analyses were conducted on livers after acute FGF21 administration (2 doses of 0.1 mg/kg, i.p.). We identified differential expression results for the treatment × sex interaction term, revealing 173 significantly enriched GO pathways from transcriptomic analyses (top 5 shown in K) and 4 significantly enriched KEGG pathways from metabolomic analyses (L). Analyses made by 2-way ANOVA (A, n = 9 mice/group) or 1-way ANOVA (BE, n = 11–12 mice/group), with Tukey post hoc tests. Analyses made by t test (FJ, n = 5 mice/group). *P < 0.05, **P < 0.01, ***P < 0.001. Data are shown as mean ± SEM.