TNF alpha drives mitochondrial stress in POMC neurons in obesity

Chun-Xia Yi; Marc Walter; Yuanqing Gao; Soledad Pitra; Beata Legutko; Stefanie Kälin; Clarita Layritz; Cristina García-Cáceres; Maximilian Bielohuby; Martin Bidlingmaier; Stephen C. Woods; Alexander Ghanem; Karl-Klaus Conzelmann; Javier E. Stern; Martin Jastroch; Matthias H. Tschöp

doi:https://doi.org/10.1038/ncomms15143

TNF alpha drives mitochondrial stress in POMC neurons in obesity

Chun-Xia Yi, Marc Walter, Yuanqing Gao, Soledad Pitra, Beata Legutko, Stefanie Kälin, Clarita Layritz, Cristina García-Cáceres, Maximilian Bielohuby, Martin Bidlingmaier, Stephen C. Woods, Alexander Ghanem, Karl-Klaus Conzelmann, Javier E. Stern, Martin Jastroch, Matthias H. Tschöp

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Abstract

Consuming a calorically dense diet stimulates microglial reactivity in the mediobasal hypothalamus (MBH) in association with decreased number of appetite-curbing pro-opiomelanocortin (POMC) neurons; whether the reduction in POMC neuronal function is secondary to the microglial activation is unclear. Here we show that in hypercaloric diet-induced obese mice, persistently activated microglia in the MBH hypersecrete TNF alpha that in turn stimulate mitochondrial ATP production in POMC neurons, promoting mitochondrial fusion in their neurites, and increasing POMC neuronal firing rates and excitability. Specific disruption of the gene expressions of TNF alpha downstream signals TNFSF11A or NDUFAB1 in the MBH of diet-induced obese mice reverses mitochondrial elongation and reduces obesity. These data imply that in a hypercaloric environment, persistent elevation of microglial reactivity and consequent TNF alpha secretion induces mitochondrial stress in POMC neurons that contributes to the development of obesity

Original language	English
Pages (from-to)	15143
Journal	Nature communications
Volume	8
DOIs	https://doi.org/10.1038/ncomms15143
Publication status	Published - 2017

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https://doi.org/10.1038/ncomms15143

Cite this

@article{515ab2aea47d459191500724a814e57a,

title = "TNF alpha drives mitochondrial stress in POMC neurons in obesity",

abstract = "Consuming a calorically dense diet stimulates microglial reactivity in the mediobasal hypothalamus (MBH) in association with decreased number of appetite-curbing pro-opiomelanocortin (POMC) neurons; whether the reduction in POMC neuronal function is secondary to the microglial activation is unclear. Here we show that in hypercaloric diet-induced obese mice, persistently activated microglia in the MBH hypersecrete TNF alpha that in turn stimulate mitochondrial ATP production in POMC neurons, promoting mitochondrial fusion in their neurites, and increasing POMC neuronal firing rates and excitability. Specific disruption of the gene expressions of TNF alpha downstream signals TNFSF11A or NDUFAB1 in the MBH of diet-induced obese mice reverses mitochondrial elongation and reduces obesity. These data imply that in a hypercaloric environment, persistent elevation of microglial reactivity and consequent TNF alpha secretion induces mitochondrial stress in POMC neurons that contributes to the development of obesity",

author = "Chun-Xia Yi and Marc Walter and Yuanqing Gao and Soledad Pitra and Beata Legutko and Stefanie K{\"a}lin and Clarita Layritz and Cristina Garc{\'i}a-C{\'a}ceres and Maximilian Bielohuby and Martin Bidlingmaier and Woods, {Stephen C.} and Alexander Ghanem and Karl-Klaus Conzelmann and Stern, {Javier E.} and Martin Jastroch and Tsch{\"o}p, {Matthias H.}",

year = "2017",

doi = "https://doi.org/10.1038/ncomms15143",

language = "English",

volume = "8",

pages = "15143",

journal = "Nature communications",

issn = "2041-1723",

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TY - JOUR

T1 - TNF alpha drives mitochondrial stress in POMC neurons in obesity

AU - Yi, Chun-Xia

AU - Walter, Marc

AU - Gao, Yuanqing

AU - Pitra, Soledad

AU - Legutko, Beata

AU - Kälin, Stefanie

AU - Layritz, Clarita

AU - García-Cáceres, Cristina

AU - Bielohuby, Maximilian

AU - Bidlingmaier, Martin

AU - Woods, Stephen C.

AU - Ghanem, Alexander

AU - Conzelmann, Karl-Klaus

AU - Stern, Javier E.

AU - Jastroch, Martin

AU - Tschöp, Matthias H.

PY - 2017

Y1 - 2017

N2 - Consuming a calorically dense diet stimulates microglial reactivity in the mediobasal hypothalamus (MBH) in association with decreased number of appetite-curbing pro-opiomelanocortin (POMC) neurons; whether the reduction in POMC neuronal function is secondary to the microglial activation is unclear. Here we show that in hypercaloric diet-induced obese mice, persistently activated microglia in the MBH hypersecrete TNF alpha that in turn stimulate mitochondrial ATP production in POMC neurons, promoting mitochondrial fusion in their neurites, and increasing POMC neuronal firing rates and excitability. Specific disruption of the gene expressions of TNF alpha downstream signals TNFSF11A or NDUFAB1 in the MBH of diet-induced obese mice reverses mitochondrial elongation and reduces obesity. These data imply that in a hypercaloric environment, persistent elevation of microglial reactivity and consequent TNF alpha secretion induces mitochondrial stress in POMC neurons that contributes to the development of obesity

AB - Consuming a calorically dense diet stimulates microglial reactivity in the mediobasal hypothalamus (MBH) in association with decreased number of appetite-curbing pro-opiomelanocortin (POMC) neurons; whether the reduction in POMC neuronal function is secondary to the microglial activation is unclear. Here we show that in hypercaloric diet-induced obese mice, persistently activated microglia in the MBH hypersecrete TNF alpha that in turn stimulate mitochondrial ATP production in POMC neurons, promoting mitochondrial fusion in their neurites, and increasing POMC neuronal firing rates and excitability. Specific disruption of the gene expressions of TNF alpha downstream signals TNFSF11A or NDUFAB1 in the MBH of diet-induced obese mice reverses mitochondrial elongation and reduces obesity. These data imply that in a hypercaloric environment, persistent elevation of microglial reactivity and consequent TNF alpha secretion induces mitochondrial stress in POMC neurons that contributes to the development of obesity

U2 - https://doi.org/10.1038/ncomms15143

DO - https://doi.org/10.1038/ncomms15143

M3 - Article

C2 - 28489068

SN - 2041-1723

VL - 8

SP - 15143

JO - Nature communications

JF - Nature communications

ER -