Author
Listed:
- Naoto Kubota
(Graduate School of Medicine, The University of Tokyo
The University of Tokyo
Clinical Nutrition Program, National Institute of Health and Nutrition, National Institutes of Biomedical Innovation, Health and Nutrition
Laboratory for Metabolic Homeostasis, RIKEN Center for Integrative Medical Sciences, Kanagawa 230-0045, Japan)
- Tetsuya Kubota
(Graduate School of Medicine, The University of Tokyo
Clinical Nutrition Program, National Institute of Health and Nutrition, National Institutes of Biomedical Innovation, Health and Nutrition
Laboratory for Metabolic Homeostasis, RIKEN Center for Integrative Medical Sciences, Kanagawa 230-0045, Japan
Toho University, Ohashi Hospital)
- Eiji Kajiwara
(Graduate School of Medicine, The University of Tokyo)
- Tomokatsu Iwamura
(Graduate School of Medicine, The University of Tokyo)
- Hiroki Kumagai
(Graduate School of Medicine, The University of Tokyo)
- Taku Watanabe
(Hokkaido University School of Medicine)
- Mariko Inoue
(Graduate School of Medicine, The University of Tokyo
Clinical Nutrition Program, National Institute of Health and Nutrition, National Institutes of Biomedical Innovation, Health and Nutrition)
- Iseki Takamoto
(Graduate School of Medicine, The University of Tokyo
Clinical Nutrition Program, National Institute of Health and Nutrition, National Institutes of Biomedical Innovation, Health and Nutrition)
- Takayoshi Sasako
(Graduate School of Medicine, The University of Tokyo)
- Katsuyoshi Kumagai
(Animal Research Center, Tokyo Medical University)
- Motoyuki Kohjima
(Clinical Research Center, National Hospital Organization Kyushu Medical Center)
- Makoto Nakamuta
(Clinical Research Center, National Hospital Organization Kyushu Medical Center)
- Masao Moroi
(Toho University, Ohashi Hospital)
- Kaoru Sugi
(Toho University, Ohashi Hospital)
- Tetsuo Noda
(Japanese Foundation for Cancer Research-Cancer Institute)
- Yasuo Terauchi
(Yokohama City University, School of Medicine)
- Kohjiro Ueki
(Graduate School of Medicine, The University of Tokyo)
- Takashi Kadowaki
(Graduate School of Medicine, The University of Tokyo)
Abstract
Hepatic insulin signalling involves insulin receptor substrates (Irs) 1/2, and is normally associated with the inhibition of gluconeogenesis and activation of lipogenesis. In diabetes and obesity, insulin no longer suppresses hepatic gluconeogenesis, while continuing to activate lipogenesis, a state referred to as ‘selective insulin resistance’. Here, we show that ‘selective insulin resistance’ is caused by the differential expression of Irs1 and Irs2 in different zones of the liver. We demonstrate that hepatic Irs2-knockout mice develop ‘selective insulin resistance’, whereas mice lacking in Irs1, or both Irs1 and Irs2, develop ‘total insulin resistance’. In obese diabetic mice, Irs1/2-mediated insulin signalling is impaired in the periportal zone, which is the primary site of gluconeogenesis, but enhanced in the perivenous zone, which is the primary site of lipogenesis. While hyperinsulinaemia reduces Irs2 expression in both the periportal and perivenous zones, Irs1 expression, which is predominantly in the perivenous zone, remains mostly unaffected. These data suggest that ‘selective insulin resistance’ is induced by the differential distribution, and alterations of hepatic Irs1 and Irs2 expression.
Suggested Citation
Naoto Kubota & Tetsuya Kubota & Eiji Kajiwara & Tomokatsu Iwamura & Hiroki Kumagai & Taku Watanabe & Mariko Inoue & Iseki Takamoto & Takayoshi Sasako & Katsuyoshi Kumagai & Motoyuki Kohjima & Makoto N, 2016.
"Differential hepatic distribution of insulin receptor substrates causes selective insulin resistance in diabetes and obesity,"
Nature Communications, Nature, vol. 7(1), pages 1-16, December.
Handle:
RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms12977
DOI: 10.1038/ncomms12977
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