Crucial role of a long-chain fatty acid elongase, Elovl6, in obesity-induced insulin resistance

Takashi Matsuzaka; Hitoshi Shimano; Naoya Yahagi; Toyonori Kato; Ayaka Atsumi; Takashi Yamamoto; Noriyuki Inoue; Mayumi Ishikawa; Sumiyo Okada; Naomi Ishigaki; Hitoshi Iwasaki; Yuko Iwasaki; Tadayoshi Karasawa; Shin Kumadaki; Toshiyuki Matsui; Motohiro Sekiya; Ken Ohashi; Alyssa H. Hasty; Yoshimi Nakagawa; Akimitsu Takahashi; Hiroaki Suzuki; Sigeru Yatoh; Hirohito Sone; Hideo Toyoshima; Jun Ichi Osuga; Nobuhiro Yamada

doi:10.1038/nm1662

Crucial role of a long-chain fatty acid elongase, Elovl6, in obesity-induced insulin resistance

Takashi Matsuzaka, Hitoshi Shimano^*, Naoya Yahagi, Toyonori Kato, Ayaka Atsumi, Takashi Yamamoto, Noriyuki Inoue, Mayumi Ishikawa, Sumiyo Okada, Naomi Ishigaki, Hitoshi Iwasaki, Yuko Iwasaki, Tadayoshi Karasawa, Shin Kumadaki, Toshiyuki Matsui, Motohiro Sekiya, Ken Ohashi, Alyssa H. Hasty, Yoshimi Nakagawa, Akimitsu TakahashiHiroaki Suzuki, Sigeru Yatoh, Hirohito Sone, Hideo Toyoshima, Jun Ichi Osuga, Nobuhiro Yamada

^*Corresponding author for this work

Complex Biosystem Research, Institute of Natural Medicine

Research output: Contribution to journal › Article › peer-review

458 Scopus citations

Abstract

Insulin resistance is often associated with obesity and can precipitate type 2 diabetes. To date, most known approaches that improve insulin resistance must be preceded by the amelioration of obesity and hepatosteatosis. Here, we show that this provision is not mandatory; insulin resistance and hyperglycemia are improved by the modification of hepatic fatty acid composition, even in the presence of persistent obesity and hepatosteatosis. Mice deficient for Elovl6, the gene encoding the elongase that catalyzes the conversion of palmitate to stearate, were generated and shown to become obese and develop hepatosteatosis when fed a high-fat diet or mated to leptin-deficient ob/ob mice. However, they showed marked protection from hyperinsulinemia, hyperglycemia and hyperleptinemia. Amelioration of insulin resistance was associated with restoration of hepatic insulin receptor substrate-2 and suppression of hepatic protein kinase C ε activity resulting in restoration of Akt phosphorylation. Collectively, these data show that hepatic fatty acid composition is a new determinant for insulin sensitivity that acts independently of cellular energy balance and stress. Inhibition of this elongase could be a new therapeutic approach for ameliorating insulin resistance, diabetes and cardiovascular risks, even in the presence of a continuing state of obesity.

Original language	English
Pages (from-to)	1193-1202
Number of pages	10
Journal	Nature Medicine
Volume	13
Issue number	10
DOIs	https://doi.org/10.1038/nm1662
State	Published - 2007/10

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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Matsuzaka, T., Shimano, H., Yahagi, N., Kato, T., Atsumi, A., Yamamoto, T., Inoue, N., Ishikawa, M., Okada, S., Ishigaki, N., Iwasaki, H., Iwasaki, Y., Karasawa, T., Kumadaki, S., Matsui, T., Sekiya, M., Ohashi, K., Hasty, A. H., Nakagawa, Y., ... Yamada, N. (2007). Crucial role of a long-chain fatty acid elongase, Elovl6, in obesity-induced insulin resistance. Nature Medicine, 13(10), 1193-1202. https://doi.org/10.1038/nm1662

@article{f3714dfe7df24ca8b2e8adf4d30dd19d,

title = "Crucial role of a long-chain fatty acid elongase, Elovl6, in obesity-induced insulin resistance",

abstract = "Insulin resistance is often associated with obesity and can precipitate type 2 diabetes. To date, most known approaches that improve insulin resistance must be preceded by the amelioration of obesity and hepatosteatosis. Here, we show that this provision is not mandatory; insulin resistance and hyperglycemia are improved by the modification of hepatic fatty acid composition, even in the presence of persistent obesity and hepatosteatosis. Mice deficient for Elovl6, the gene encoding the elongase that catalyzes the conversion of palmitate to stearate, were generated and shown to become obese and develop hepatosteatosis when fed a high-fat diet or mated to leptin-deficient ob/ob mice. However, they showed marked protection from hyperinsulinemia, hyperglycemia and hyperleptinemia. Amelioration of insulin resistance was associated with restoration of hepatic insulin receptor substrate-2 and suppression of hepatic protein kinase C ε activity resulting in restoration of Akt phosphorylation. Collectively, these data show that hepatic fatty acid composition is a new determinant for insulin sensitivity that acts independently of cellular energy balance and stress. Inhibition of this elongase could be a new therapeutic approach for ameliorating insulin resistance, diabetes and cardiovascular risks, even in the presence of a continuing state of obesity.",

author = "Takashi Matsuzaka and Hitoshi Shimano and Naoya Yahagi and Toyonori Kato and Ayaka Atsumi and Takashi Yamamoto and Noriyuki Inoue and Mayumi Ishikawa and Sumiyo Okada and Naomi Ishigaki and Hitoshi Iwasaki and Yuko Iwasaki and Tadayoshi Karasawa and Shin Kumadaki and Toshiyuki Matsui and Motohiro Sekiya and Ken Ohashi and Hasty, {Alyssa H.} and Yoshimi Nakagawa and Akimitsu Takahashi and Hiroaki Suzuki and Sigeru Yatoh and Hirohito Sone and Hideo Toyoshima and Osuga, {Jun Ichi} and Nobuhiro Yamada",

note = "Funding Information: We thank T. Ide and H. Daitoku for technical help and/or useful comments. This work was supported by grants-in-aid from the Ministry of Science, Education, Culture and Technology of Japan; a grant for the Japan Foundation for Applied Enzymology; and a grant from The Naito Foundation.",

year = "2007",

month = oct,

doi = "10.1038/nm1662",

language = "英語",

volume = "13",

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Matsuzaka, T, Shimano, H, Yahagi, N, Kato, T, Atsumi, A, Yamamoto, T, Inoue, N, Ishikawa, M, Okada, S, Ishigaki, N, Iwasaki, H, Iwasaki, Y, Karasawa, T, Kumadaki, S, Matsui, T, Sekiya, M, Ohashi, K, Hasty, AH, Nakagawa, Y, Takahashi, A, Suzuki, H, Yatoh, S, Sone, H, Toyoshima, H, Osuga, JI & Yamada, N 2007, 'Crucial role of a long-chain fatty acid elongase, Elovl6, in obesity-induced insulin resistance', Nature Medicine, vol. 13, no. 10, pp. 1193-1202. https://doi.org/10.1038/nm1662

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T1 - Crucial role of a long-chain fatty acid elongase, Elovl6, in obesity-induced insulin resistance

AU - Matsuzaka, Takashi

AU - Shimano, Hitoshi

AU - Yahagi, Naoya

AU - Kato, Toyonori

AU - Atsumi, Ayaka

AU - Yamamoto, Takashi

AU - Inoue, Noriyuki

AU - Ishikawa, Mayumi

AU - Okada, Sumiyo

AU - Ishigaki, Naomi

AU - Iwasaki, Hitoshi

AU - Iwasaki, Yuko

AU - Karasawa, Tadayoshi

AU - Kumadaki, Shin

AU - Matsui, Toshiyuki

AU - Sekiya, Motohiro

AU - Ohashi, Ken

AU - Hasty, Alyssa H.

AU - Nakagawa, Yoshimi

AU - Takahashi, Akimitsu

AU - Suzuki, Hiroaki

AU - Yatoh, Sigeru

AU - Sone, Hirohito

AU - Toyoshima, Hideo

AU - Osuga, Jun Ichi

AU - Yamada, Nobuhiro

N1 - Funding Information: We thank T. Ide and H. Daitoku for technical help and/or useful comments. This work was supported by grants-in-aid from the Ministry of Science, Education, Culture and Technology of Japan; a grant for the Japan Foundation for Applied Enzymology; and a grant from The Naito Foundation.

PY - 2007/10

Y1 - 2007/10

N2 - Insulin resistance is often associated with obesity and can precipitate type 2 diabetes. To date, most known approaches that improve insulin resistance must be preceded by the amelioration of obesity and hepatosteatosis. Here, we show that this provision is not mandatory; insulin resistance and hyperglycemia are improved by the modification of hepatic fatty acid composition, even in the presence of persistent obesity and hepatosteatosis. Mice deficient for Elovl6, the gene encoding the elongase that catalyzes the conversion of palmitate to stearate, were generated and shown to become obese and develop hepatosteatosis when fed a high-fat diet or mated to leptin-deficient ob/ob mice. However, they showed marked protection from hyperinsulinemia, hyperglycemia and hyperleptinemia. Amelioration of insulin resistance was associated with restoration of hepatic insulin receptor substrate-2 and suppression of hepatic protein kinase C ε activity resulting in restoration of Akt phosphorylation. Collectively, these data show that hepatic fatty acid composition is a new determinant for insulin sensitivity that acts independently of cellular energy balance and stress. Inhibition of this elongase could be a new therapeutic approach for ameliorating insulin resistance, diabetes and cardiovascular risks, even in the presence of a continuing state of obesity.

AB - Insulin resistance is often associated with obesity and can precipitate type 2 diabetes. To date, most known approaches that improve insulin resistance must be preceded by the amelioration of obesity and hepatosteatosis. Here, we show that this provision is not mandatory; insulin resistance and hyperglycemia are improved by the modification of hepatic fatty acid composition, even in the presence of persistent obesity and hepatosteatosis. Mice deficient for Elovl6, the gene encoding the elongase that catalyzes the conversion of palmitate to stearate, were generated and shown to become obese and develop hepatosteatosis when fed a high-fat diet or mated to leptin-deficient ob/ob mice. However, they showed marked protection from hyperinsulinemia, hyperglycemia and hyperleptinemia. Amelioration of insulin resistance was associated with restoration of hepatic insulin receptor substrate-2 and suppression of hepatic protein kinase C ε activity resulting in restoration of Akt phosphorylation. Collectively, these data show that hepatic fatty acid composition is a new determinant for insulin sensitivity that acts independently of cellular energy balance and stress. Inhibition of this elongase could be a new therapeutic approach for ameliorating insulin resistance, diabetes and cardiovascular risks, even in the presence of a continuing state of obesity.

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DO - 10.1038/nm1662

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AN - SCOPUS:34948904815

SN - 1078-8956

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SP - 1193

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JO - Nature Medicine

JF - Nature Medicine

IS - 10

ER -

Crucial role of a long-chain fatty acid elongase, Elovl6, in obesity-induced insulin resistance

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