Hepatic FASN deficiency differentially affects nonalcoholic fatty liver disease and diabetes in mouse obesity models
Toshiya Matsukawa, Takashi Yagi, Tohru Uchida, Mashito Sakai, Masaru Mitsushima, Takao Naganuma, Hiroyuki Yano, Yuka Inaba, Hiroshi Inoue, Keisuke Yanagida, Masaaki Uematsu, Kazuki Nakao, Harumi Nakao, Atsu Aiba, Yoji Nagashima, Tetsuya Kubota, Naoto Kubota, Yoshihiko Izumida, Naoya Yahagi, Hiroyuki Unoki-Kubota, Yasushi Kaburagi, Shun-ichiro Asahara, Yoshiaki Kido, Hideo Shindou, Michiko Itoh, Yoshihiro Ogawa, Shiro Minami, Yasuo Terauchi, Kazuyuki Tobe, Kohjiro Ueki, Masato Kasuga, Michihiro Matsumoto
Toshiya Matsukawa, Takashi Yagi, Tohru Uchida, Mashito Sakai, Masaru Mitsushima, Takao Naganuma, Hiroyuki Yano, Yuka Inaba, Hiroshi Inoue, Keisuke Yanagida, Masaaki Uematsu, Kazuki Nakao, Harumi Nakao, Atsu Aiba, Yoji Nagashima, Tetsuya Kubota, Naoto Kubota, Yoshihiko Izumida, Naoya Yahagi, Hiroyuki Unoki-Kubota, Yasushi Kaburagi, Shun-ichiro Asahara, Yoshiaki Kido, Hideo Shindou, Michiko Itoh, Yoshihiro Ogawa, Shiro Minami, Yasuo Terauchi, Kazuyuki Tobe, Kohjiro Ueki, Masato Kasuga, Michihiro Matsumoto
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Research Article Hepatology Metabolism

Hepatic FASN deficiency differentially affects nonalcoholic fatty liver disease and diabetes in mouse obesity models

Abstract

Nonalcoholic fatty liver disease (NAFLD) and type 2 diabetes are interacting comorbidities of obesity, and increased hepatic de novo lipogenesis (DNL), driven by hyperinsulinemia and carbohydrate overload, contributes to their pathogenesis. Fatty acid synthase (FASN), a key enzyme of hepatic DNL, is upregulated in association with insulin resistance. However, the therapeutic potential of targeting FASN in hepatocytes for obesity-associated metabolic diseases is unknown. Here, we show that hepatic FASN deficiency differentially affects NAFLD and diabetes depending on the etiology of obesity. Hepatocyte-specific ablation of FASN ameliorated NAFLD and diabetes in melanocortin 4 receptor–deficient mice but not in mice with diet-induced obesity. In leptin-deficient mice, FASN ablation alleviated hepatic steatosis and improved glucose tolerance but exacerbated fed hyperglycemia and liver dysfunction. The beneficial effects of hepatic FASN deficiency on NAFLD and glucose metabolism were associated with suppression of DNL and attenuation of gluconeogenesis and fatty acid oxidation, respectively. The exacerbation of fed hyperglycemia by FASN ablation in leptin-deficient mice appeared attributable to impairment of hepatic glucose uptake triggered by glycogen accumulation and citrate-mediated inhibition of glycolysis. Further investigation of the therapeutic potential of hepatic FASN inhibition for NAFLD and diabetes in humans should thus consider the etiology of obesity.

Authors

Toshiya Matsukawa, Takashi Yagi, Tohru Uchida, Mashito Sakai, Masaru Mitsushima, Takao Naganuma, Hiroyuki Yano, Yuka Inaba, Hiroshi Inoue, Keisuke Yanagida, Masaaki Uematsu, Kazuki Nakao, Harumi Nakao, Atsu Aiba, Yoji Nagashima, Tetsuya Kubota, Naoto Kubota, Yoshihiko Izumida, Naoya Yahagi, Hiroyuki Unoki-Kubota, Yasushi Kaburagi, Shun-ichiro Asahara, Yoshiaki Kido, Hideo Shindou, Michiko Itoh, Yoshihiro Ogawa, Shiro Minami, Yasuo Terauchi, Kazuyuki Tobe, Kohjiro Ueki, Masato Kasuga, Michihiro Matsumoto

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Figure 3

Effects of leptin supplementation and HFruD feeding on the metabolic phenotype of ob/ob HKO mice.

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Effects of leptin supplementation and HFruD feeding on the metabolic phe...
(AD) Food intake (A), change in BW (B), blood glucose concentration in the fed state (C), and the results of an IPGTT (2 g of glucose per kg of BW) (D) at 1 week after the onset of leptin or PBS (vehicle) supplementation in 8- to 9-week-old ob/ob F/F and ob/ob HKO mice (n = 6). (E and F) BW at the indicated ages (n = 7) (E) and blood glucose concentrations in the fasted and fed states at 24 weeks of age (n = 7) (F) for HFruD-fed ob/ob F/F and ob/ob HKO mice. (G) An IPGTT (2 g of glucose per kg of BW) in 14-week-old HFruD-fed mice (n = 4). (H) H&E, Oil Red O, and PAS staining of liver sections from 16-week-old HFruD-fed mice. Images are representative of 4 mice per genotype. Scale bars, 100 μm. (I) Hepatic triglyceride (n = 6), cholesterol (n = 6), and glycogen (n = 4) levels in 24-week-old HFruD-fed mice. (J) A pyruvate tolerance test for 15-week-old HFruD-fed mice (n = 5). All quantitative data are means + SEM for the indicated numbers of mice. *P < 0.05, **P < 0.01 compared with ob/ob F/F mice or as indicated (1-way ANOVA followed by Tukey’s multiple comparison test in AC or 2-tailed Student’s t test in DG, I, and J). HFruD, high-fructose, low-glucose diet; PAS, periodic acid–Schiff.