Divergent effects of glucose and fructose on hepatic lipogenesis and insulin signaling
Samir Softic, … , David E. Cohen, C. Ronald Kahn
Samir Softic, … , David E. Cohen, C. Ronald Kahn
Published October 3, 2017
Citation Information: J Clin Invest. 2017;127(11):4059-4074. https://doi.org/10.1172/JCI94585.
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Research Article Hepatology Metabolism

Divergent effects of glucose and fructose on hepatic lipogenesis and insulin signaling

Abstract

Overconsumption of high-fat diet (HFD) and sugar-sweetened beverages are risk factors for developing obesity, insulin resistance, and fatty liver disease. Here we have dissected mechanisms underlying this association using mice fed either chow or HFD with or without fructose- or glucose-supplemented water. In chow-fed mice, there was no major physiological difference between fructose and glucose supplementation. On the other hand, mice on HFD supplemented with fructose developed more pronounced obesity, glucose intolerance, and hepatomegaly as compared to glucose-supplemented HFD mice, despite similar caloric intake. Fructose and glucose supplementation also had distinct effects on expression of the lipogenic transcription factors ChREBP and SREBP1c. While both sugars increased ChREBP-β, fructose supplementation uniquely increased SREBP1c and downstream fatty acid synthesis genes, resulting in reduced liver insulin signaling. In contrast, glucose enhanced total ChREBP expression and triglyceride synthesis but was associated with improved hepatic insulin signaling. Metabolomic and RNA sequence analysis confirmed dichotomous effects of fructose and glucose supplementation on liver metabolism in spite of inducing similar hepatic lipid accumulation. Ketohexokinase, the first enzyme of fructose metabolism, was increased in fructose-fed mice and in obese humans with steatohepatitis. Knockdown of ketohexokinase in liver improved hepatic steatosis and glucose tolerance in fructose-supplemented mice. Thus, fructose is a component of dietary sugar that is distinctively associated with poor metabolic outcomes, whereas increased glucose intake may be protective.

Authors

Samir Softic, Manoj K. Gupta, Guo-Xiao Wang, Shiho Fujisaka, Brian T. O’Neill, Tata Nageswara Rao, Jennifer Willoughby, Carole Harbison, Kevin Fitzgerald, Olga Ilkayeva, Christopher B. Newgard, David E. Cohen, C. Ronald Kahn

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Figure 3

Fructose and glucose induce unique lipogenic transcription factors.

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Fructose and glucose induce unique lipogenic transcription factors. (A) ...
(A) mRNA expression and (B) protein levels of SREBP1 transcription factors in whole cell lysates from livers of mice after 10 weeks on diets. (C) Western blots of cytoplasmic and nuclear fractions of truncated active form of (N) SREBP1 and ImageJ quantification of N-SREBP1 protein. (D) mRNA expression of total Chrebp, (E) Chrebp-β isoform, and (F) total protein levels of ChREBP in whole cell liver lysates. (G) Western blots of cytoplasmic and nuclear factions of ChREBP and ImageJ quantification of nuclear fraction. n = 6 mice per group. (H) Immunoprecipitation of ChREBP followed by immunoblot for acetyl-K. 1, Chow+H2O; 2, Chow+Fruct; 3, Chow+Gluc; 4, HFD+H2O; 5, HFD+Fruct; 6, HFD+Gluc, with 3 samples pooled per group. Statistical analysis was performed using 2-way ANOVA with post hoc t tests between the individual groups. #P < 0.05; ##P < 0.01; ####P < 0.0001, compared with Chow+H2O group. *P < 0.05; **P < 0.01; ***P < 0.001, within chow or HFD groups.