MyD88 Signaling in the CNS Is Required for Development of Fatty Acid-Induced Leptin Resistance and Diet-Induced Obesity

André Kleinridders; Dominik Schenten; A. Christine Könner; Bengt F. Belgardt; Jan Mauer; Tomoo Okamura; F. Thomas Wunderlich; Ruslan Medzhitov; Jens C. Brüning

doi:10.1016/j.cmet.2009.08.013

MyD88 Signaling in the CNS Is Required for Development of Fatty Acid-Induced Leptin Resistance and Diet-Induced Obesity

André Kleinridders, Dominik Schenten, A. Christine Könner, Bengt F. Belgardt, Jan Mauer, Tomoo Okamura, F. Thomas Wunderlich, Ruslan Medzhitov, Jens C. Brüning

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

409 Scopus citations

Abstract

Obesity-associated activation of inflammatory pathways represents a key step in the development of insulin resistance in peripheral organs, partially via activation of TLR4 signaling by fatty acids. Here, we demonstrate that palmitate acting in the central nervous system (CNS) inhibits leptin-induced anorexia and Stat3 activation. To determine the functional significance of TLR signaling in the CNS in the development of leptin resistance and diet-induced obesity in vivo, we have characterized mice deficient for the TLR adaptor molecule MyD88 in the CNS (MyD88^ΔCNS). Compared to control mice, MyD88^ΔCNS mice are protected from high-fat diet (HFD)-induced weight gain, from the development of HFD-induced leptin resistance, and from the induction of leptin resistance by acute central application of palmitate. Moreover, CNS-restricted MyD88 deletion protects from HFD- and icv palmitate-induced impairment of peripheral glucose metabolism. Thus, we define neuronal MyD88-dependent signaling as a key regulator of diet-induced leptin and insulin resistance in vivo.

Original language	English (US)
Pages (from-to)	249-259
Number of pages	11
Journal	Cell Metabolism
Volume	10
Issue number	4
DOIs	https://doi.org/10.1016/j.cmet.2009.08.013
State	Published - Oct 7 2009
Externally published	Yes

Keywords

HUMDISEASE
MOLNEURO

ASJC Scopus subject areas

Physiology
Molecular Biology
Cell Biology

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10.1016/j.cmet.2009.08.013

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@article{ea0e18a465844ac693d7f3c33f046e4f,

title = "MyD88 Signaling in the CNS Is Required for Development of Fatty Acid-Induced Leptin Resistance and Diet-Induced Obesity",

abstract = "Obesity-associated activation of inflammatory pathways represents a key step in the development of insulin resistance in peripheral organs, partially via activation of TLR4 signaling by fatty acids. Here, we demonstrate that palmitate acting in the central nervous system (CNS) inhibits leptin-induced anorexia and Stat3 activation. To determine the functional significance of TLR signaling in the CNS in the development of leptin resistance and diet-induced obesity in vivo, we have characterized mice deficient for the TLR adaptor molecule MyD88 in the CNS (MyD88ΔCNS). Compared to control mice, MyD88ΔCNS mice are protected from high-fat diet (HFD)-induced weight gain, from the development of HFD-induced leptin resistance, and from the induction of leptin resistance by acute central application of palmitate. Moreover, CNS-restricted MyD88 deletion protects from HFD- and icv palmitate-induced impairment of peripheral glucose metabolism. Thus, we define neuronal MyD88-dependent signaling as a key regulator of diet-induced leptin and insulin resistance in vivo.",

keywords = "HUMDISEASE, MOLNEURO",

author = "Andr{\'e} Kleinridders and Dominik Schenten and K{\"o}nner, {A. Christine} and Belgardt, {Bengt F.} and Jan Mauer and Tomoo Okamura and Wunderlich, {F. Thomas} and Ruslan Medzhitov and Br{\"u}ning, {Jens C.}",

note = "Funding Information: We thank Gisela Schmall and Tanja Rayle for excellent secretarial assistance, Brigitte Hampel and Jens Alber for excellent technical assistance, and Dr. Hella S. Br{\"o}nneke for help with the PhenoMaster. This work was supported by the ZMMK (to J.C.B.), the European Community's 7 th Framework Programme (grant FP7/2007-2013, n° 201608 to J.C.B.), the DFG (grant 1492-7 to J.C.B.), the BMBF obesity competence network “Neurotarget” (to J.C.B.), the NIH (grant AI 055502 to R.M.), and the HHMI (to R.M.). D.S. was supported by a training grant of the NIH and an Irvington fellowship of the Cancer Research Institute. ",

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month = oct,

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doi = "10.1016/j.cmet.2009.08.013",

language = "English (US)",

volume = "10",

pages = "249--259",

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T1 - MyD88 Signaling in the CNS Is Required for Development of Fatty Acid-Induced Leptin Resistance and Diet-Induced Obesity

AU - Kleinridders, André

AU - Schenten, Dominik

AU - Könner, A. Christine

AU - Belgardt, Bengt F.

AU - Mauer, Jan

AU - Okamura, Tomoo

AU - Wunderlich, F. Thomas

AU - Medzhitov, Ruslan

AU - Brüning, Jens C.

N1 - Funding Information: We thank Gisela Schmall and Tanja Rayle for excellent secretarial assistance, Brigitte Hampel and Jens Alber for excellent technical assistance, and Dr. Hella S. Brönneke for help with the PhenoMaster. This work was supported by the ZMMK (to J.C.B.), the European Community's 7 th Framework Programme (grant FP7/2007-2013, n° 201608 to J.C.B.), the DFG (grant 1492-7 to J.C.B.), the BMBF obesity competence network “Neurotarget” (to J.C.B.), the NIH (grant AI 055502 to R.M.), and the HHMI (to R.M.). D.S. was supported by a training grant of the NIH and an Irvington fellowship of the Cancer Research Institute.

PY - 2009/10/7

Y1 - 2009/10/7

N2 - Obesity-associated activation of inflammatory pathways represents a key step in the development of insulin resistance in peripheral organs, partially via activation of TLR4 signaling by fatty acids. Here, we demonstrate that palmitate acting in the central nervous system (CNS) inhibits leptin-induced anorexia and Stat3 activation. To determine the functional significance of TLR signaling in the CNS in the development of leptin resistance and diet-induced obesity in vivo, we have characterized mice deficient for the TLR adaptor molecule MyD88 in the CNS (MyD88ΔCNS). Compared to control mice, MyD88ΔCNS mice are protected from high-fat diet (HFD)-induced weight gain, from the development of HFD-induced leptin resistance, and from the induction of leptin resistance by acute central application of palmitate. Moreover, CNS-restricted MyD88 deletion protects from HFD- and icv palmitate-induced impairment of peripheral glucose metabolism. Thus, we define neuronal MyD88-dependent signaling as a key regulator of diet-induced leptin and insulin resistance in vivo.

AB - Obesity-associated activation of inflammatory pathways represents a key step in the development of insulin resistance in peripheral organs, partially via activation of TLR4 signaling by fatty acids. Here, we demonstrate that palmitate acting in the central nervous system (CNS) inhibits leptin-induced anorexia and Stat3 activation. To determine the functional significance of TLR signaling in the CNS in the development of leptin resistance and diet-induced obesity in vivo, we have characterized mice deficient for the TLR adaptor molecule MyD88 in the CNS (MyD88ΔCNS). Compared to control mice, MyD88ΔCNS mice are protected from high-fat diet (HFD)-induced weight gain, from the development of HFD-induced leptin resistance, and from the induction of leptin resistance by acute central application of palmitate. Moreover, CNS-restricted MyD88 deletion protects from HFD- and icv palmitate-induced impairment of peripheral glucose metabolism. Thus, we define neuronal MyD88-dependent signaling as a key regulator of diet-induced leptin and insulin resistance in vivo.

KW - HUMDISEASE

KW - MOLNEURO

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SN - 1550-4131

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JO - Cell Metabolism

JF - Cell Metabolism

IS - 4

ER -

MyD88 Signaling in the CNS Is Required for Development of Fatty Acid-Induced Leptin Resistance and Diet-Induced Obesity

Abstract

Keywords

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