Intestinal, but not hepatic, ChREBP is required for fructose tolerance
MiSung Kim, Inna I. Astapova, Sarah N. Flier, Sarah A. Hannou, Ludivine Doridot, Ashot Sargsyan, Henry H. Kou, Alan J. Fowler, Guosheng Liang, Mark A. Herman
MiSung Kim, Inna I. Astapova, Sarah N. Flier, Sarah A. Hannou, Ludivine Doridot, Ashot Sargsyan, Henry H. Kou, Alan J. Fowler, Guosheng Liang, Mark A. Herman
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Research Article Metabolism

Intestinal, but not hepatic, ChREBP is required for fructose tolerance

Abstract

Increased sugar consumption is a risk factor for the metabolic syndrome including obesity, hypertriglyceridemia, insulin resistance, diabetes, and nonalcoholic fatty liver disease (NAFLD). Carbohydrate responsive element–binding protein (ChREBP) is a transcription factor that responds to sugar consumption to regulate adaptive metabolic programs. Hepatic ChREBP is particularly responsive to fructose and global ChREBP-KO mice are intolerant to diets containing fructose. It has recently been suggested that ChREBP protects the liver from hepatotoxicity following high-fructose diets (HFrDs). We directly tested this hypothesis using tissue-specific ChREBP deletion. HFrD increased adiposity and impaired glucose homeostasis in control mice, responses that were prevented in liver-specific ChREBP-KO (LiChKO) mice. Moreover, LiChKO mice tolerated chronic HFrD without marked weight loss or hepatotoxicity. In contrast, intestine-specific ChREBP-KO (IChKO) mice rapidly lost weight after transition to HFrD, and this was associated with dilation of the small intestine and cecum, suggestive of malabsorption. These findings were associated with downregulation of the intestinal fructose transporter, Slc2a5, which is essential for fructose tolerance. Altogether, these results establish an essential role for intestinal, but not hepatic, ChREBP in fructose tolerance.

Authors

MiSung Kim, Inna I. Astapova, Sarah N. Flier, Sarah A. Hannou, Ludivine Doridot, Ashot Sargsyan, Henry H. Kou, Alan J. Fowler, Guosheng Liang, Mark A. Herman

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Figure 4

LiChKO mice do not develop ER stress or liver inflammation with high-fructose feeding.

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LiChKO mice do not develop ER stress or liver inflammation with high-fru...
(A) Serum aspartate aminotransferase (AST) and alanine aminotransferase (ALT) activity levels, (B) hepatic mRNA expression of genes involved in ER stress, immunoblots for (C) DNA damage–inducible transcript 3 (DDIT3) and (D) caspase-3 (CASP3) performed in the control (CTL) and liver-specific ChREBP-KO (LiChKO) mice described in Figure 3A. (E) Representative images of H&E–stained liver sections taken at ×10 magnification. Data are presented as box-and-whisker plots where the line in the box indicates the median, the box extends from the 25th to 75th percentiles, and the whiskers indicate the minimal and maximal values. P values were obtained using 2-way ANOVA. *P < 0.05 compared between water and fructose within the same genotype; #P < 0.05 compared between different genotypes within the same treatment group. ChREBP, carbohydrate responsive element–binding protein.