Role of transcription factor NFAT in glucose and insulin homeostasis

Teddy T C Yang; Hee Yun Suk; Xiao Yong Yang; Opeyemi Olabisi; Raymond Y L Yu; Jorge Durand; Linda A. Jelicks; Ja Young Kim; Philipp E. Scherer; Yuhua Wang; Yun Feng; Luciano Rossetti; Isabella A. Graef; Gerald R. Crabtree; Chi Wing Chow

doi:10.1128/MCB.00580-06

Role of transcription factor NFAT in glucose and insulin homeostasis

Teddy T C Yang, Hee Yun Suk, Xiao Yong Yang, Opeyemi Olabisi, Raymond Y L Yu, Jorge Durand, Linda A. Jelicks, Ja Young Kim, Philipp E. Scherer, Yuhua Wang, Yun Feng, Luciano Rossetti, Isabella A. Graef, Gerald R. Crabtree, Chi Wing Chow

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

61 Scopus citations

Abstract

Compromised immunoregulation contributes to obesity and complications in metabolic pathogenesis. Here, we demonstrate that the nuclear factor of activated T cell (NFAT) group of transcription factors contributes to glucose and insulin homeostasis. Expression of two members of the NFAT family (NFATc2 and NFATc4) is induced upon adipogenesis and in obese mice. Mice with the Nfatc2^-/- Nfatc4^-/- compound disruption exhibit defects in fat accumulation and are lean. Nfatc2^-/- Nfatc4^-/- mice are also protected from diet-induced obesity. Ablation of NFATc2 and NFATc4 increases insulin sensitivity, in part, by sustained activation of the insulin signaling pathway. Nfatc2^-/- Nfatc4^-/- mice also exhibit an altered adipokine profile, with reduced resistin and leptin levels. Mechanistically, NFAT is recruited to the transcription loci and regulates resistin gene expression upon insulin stimulation. Together, these results establish a role for NFAT in glucose/insulin homeostasis and expand the repertoire of NFAT function to metabolic pathogenesis and adipokine gene transcription.

Original language	English (US)
Pages (from-to)	7372-7387
Number of pages	16
Journal	Molecular and cellular biology
Volume	26
Issue number	20
DOIs	https://doi.org/10.1128/MCB.00580-06
State	Published - Oct 2006

ASJC Scopus subject areas

Molecular Biology
Cell Biology

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title = "Role of transcription factor NFAT in glucose and insulin homeostasis",

abstract = "Compromised immunoregulation contributes to obesity and complications in metabolic pathogenesis. Here, we demonstrate that the nuclear factor of activated T cell (NFAT) group of transcription factors contributes to glucose and insulin homeostasis. Expression of two members of the NFAT family (NFATc2 and NFATc4) is induced upon adipogenesis and in obese mice. Mice with the Nfatc2-/- Nfatc4-/- compound disruption exhibit defects in fat accumulation and are lean. Nfatc2-/- Nfatc4-/- mice are also protected from diet-induced obesity. Ablation of NFATc2 and NFATc4 increases insulin sensitivity, in part, by sustained activation of the insulin signaling pathway. Nfatc2-/- Nfatc4-/- mice also exhibit an altered adipokine profile, with reduced resistin and leptin levels. Mechanistically, NFAT is recruited to the transcription loci and regulates resistin gene expression upon insulin stimulation. Together, these results establish a role for NFAT in glucose/insulin homeostasis and expand the repertoire of NFAT function to metabolic pathogenesis and adipokine gene transcription.",

author = "Yang, {Teddy T C} and Suk, {Hee Yun} and Yang, {Xiao Yong} and Opeyemi Olabisi and Yu, {Raymond Y L} and Jorge Durand and Jelicks, {Linda A.} and Kim, {Ja Young} and Scherer, {Philipp E.} and Yuhua Wang and Yun Feng and Luciano Rossetti and Graef, {Isabella A.} and Crabtree, {Gerald R.} and Chow, {Chi Wing}",

year = "2006",

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doi = "10.1128/MCB.00580-06",

language = "English (US)",

volume = "26",

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AU - Yang, Teddy T C

AU - Suk, Hee Yun

AU - Yang, Xiao Yong

AU - Olabisi, Opeyemi

AU - Yu, Raymond Y L

AU - Durand, Jorge

AU - Jelicks, Linda A.

AU - Kim, Ja Young

AU - Scherer, Philipp E.

AU - Wang, Yuhua

AU - Feng, Yun

AU - Rossetti, Luciano

AU - Graef, Isabella A.

AU - Crabtree, Gerald R.

AU - Chow, Chi Wing

PY - 2006/10

Y1 - 2006/10

N2 - Compromised immunoregulation contributes to obesity and complications in metabolic pathogenesis. Here, we demonstrate that the nuclear factor of activated T cell (NFAT) group of transcription factors contributes to glucose and insulin homeostasis. Expression of two members of the NFAT family (NFATc2 and NFATc4) is induced upon adipogenesis and in obese mice. Mice with the Nfatc2-/- Nfatc4-/- compound disruption exhibit defects in fat accumulation and are lean. Nfatc2-/- Nfatc4-/- mice are also protected from diet-induced obesity. Ablation of NFATc2 and NFATc4 increases insulin sensitivity, in part, by sustained activation of the insulin signaling pathway. Nfatc2-/- Nfatc4-/- mice also exhibit an altered adipokine profile, with reduced resistin and leptin levels. Mechanistically, NFAT is recruited to the transcription loci and regulates resistin gene expression upon insulin stimulation. Together, these results establish a role for NFAT in glucose/insulin homeostasis and expand the repertoire of NFAT function to metabolic pathogenesis and adipokine gene transcription.

AB - Compromised immunoregulation contributes to obesity and complications in metabolic pathogenesis. Here, we demonstrate that the nuclear factor of activated T cell (NFAT) group of transcription factors contributes to glucose and insulin homeostasis. Expression of two members of the NFAT family (NFATc2 and NFATc4) is induced upon adipogenesis and in obese mice. Mice with the Nfatc2-/- Nfatc4-/- compound disruption exhibit defects in fat accumulation and are lean. Nfatc2-/- Nfatc4-/- mice are also protected from diet-induced obesity. Ablation of NFATc2 and NFATc4 increases insulin sensitivity, in part, by sustained activation of the insulin signaling pathway. Nfatc2-/- Nfatc4-/- mice also exhibit an altered adipokine profile, with reduced resistin and leptin levels. Mechanistically, NFAT is recruited to the transcription loci and regulates resistin gene expression upon insulin stimulation. Together, these results establish a role for NFAT in glucose/insulin homeostasis and expand the repertoire of NFAT function to metabolic pathogenesis and adipokine gene transcription.

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Role of transcription factor NFAT in glucose and insulin homeostasis

Abstract

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