TrpC5 Mediates Acute Leptin and Serotonin Effects via Pomc Neurons

Yong Gao; Ting Yao; Zhuo Deng; Jong Woo Sohn; Jia Sun; Yiru Huang; Xingxing Kong; Kai jiang Yu; Rui tao Wang; Hong Chen; Hongbo Guo; Jianqun Yan; Kathryn A. Cunningham; Yongsheng Chang; Tiemin Liu; Kevin W. Williams

doi:10.1016/j.celrep.2016.12.072

TrpC5 Mediates Acute Leptin and Serotonin Effects via Pomc Neurons

Yong Gao, Ting Yao, Zhuo Deng, Jong Woo Sohn, Jia Sun, Yiru Huang, Xingxing Kong, Kai jiang Yu, Rui tao Wang, Hong Chen, Hongbo Guo, Jianqun Yan, Kathryn A. Cunningham, Yongsheng Chang, Tiemin Liu, Kevin W. Williams

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

75 Scopus citations

Abstract

The molecular mechanisms underlying acute leptin and serotonin 2C receptor-induced hypophagia remain unclear. Here, we show that neuronal and pro-opiomelanocortin (Pomc)-specific loss of transient receptor potential cation 5 (TrpC5) subunits is sufficient to decrease energy expenditure and increase food intake resulting in elevated body weight. Deficiency of Trpc5 subunits in Pomc neurons is also sufficient to block the anorexigenic effects of leptin and serotonin 2C receptor (Ht2Cr) agonists. The loss of acute anorexigenic effects of these receptors is concomitant with a blunted electrophysiological response to both leptin and Ht2Cr agonists in arcuate Pomc neurons. We also demonstrate that the Ht2Cr agonist lorcaserin-induced improvements in glucose and insulin tolerance are blocked by TrpC5 deficiency in Pomc neurons. Together, our results link TrpC5 subunits in the brain with leptin- and serotonin 2C receptor-dependent changes in neuronal activity, as well as energy balance, feeding behavior, and glucose metabolism.

Original language	English (US)
Pages (from-to)	583-592
Number of pages	10
Journal	Cell Reports
Volume	18
Issue number	3
DOIs	https://doi.org/10.1016/j.celrep.2016.12.072
State	Published - Jan 17 2017

Keywords

diabetes
electrophysiology
glycemia
leptin
lorcaserin
melanocortin
obesity
patch-clamp
serotonin
thermogenesis
transient receptor potential cation channels

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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10.1016/j.celrep.2016.12.072

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title = "TrpC5 Mediates Acute Leptin and Serotonin Effects via Pomc Neurons",

abstract = "The molecular mechanisms underlying acute leptin and serotonin 2C receptor-induced hypophagia remain unclear. Here, we show that neuronal and pro-opiomelanocortin (Pomc)-specific loss of transient receptor potential cation 5 (TrpC5) subunits is sufficient to decrease energy expenditure and increase food intake resulting in elevated body weight. Deficiency of Trpc5 subunits in Pomc neurons is also sufficient to block the anorexigenic effects of leptin and serotonin 2C receptor (Ht2Cr) agonists. The loss of acute anorexigenic effects of these receptors is concomitant with a blunted electrophysiological response to both leptin and Ht2Cr agonists in arcuate Pomc neurons. We also demonstrate that the Ht2Cr agonist lorcaserin-induced improvements in glucose and insulin tolerance are blocked by TrpC5 deficiency in Pomc neurons. Together, our results link TrpC5 subunits in the brain with leptin- and serotonin 2C receptor-dependent changes in neuronal activity, as well as energy balance, feeding behavior, and glucose metabolism.",

keywords = "diabetes, electrophysiology, glycemia, leptin, lorcaserin, melanocortin, obesity, patch-clamp, serotonin, thermogenesis, transient receptor potential cation channels",

author = "Yong Gao and Ting Yao and Zhuo Deng and Sohn, {Jong Woo} and Jia Sun and Yiru Huang and Xingxing Kong and Yu, {Kai jiang} and Wang, {Rui tao} and Hong Chen and Hongbo Guo and Jianqun Yan and Cunningham, {Kathryn A.} and Yongsheng Chang and Tiemin Liu and Williams, {Kevin W.}",

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doi = "10.1016/j.celrep.2016.12.072",

language = "English (US)",

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T1 - TrpC5 Mediates Acute Leptin and Serotonin Effects via Pomc Neurons

AU - Gao, Yong

AU - Yao, Ting

AU - Deng, Zhuo

AU - Sohn, Jong Woo

AU - Sun, Jia

AU - Huang, Yiru

AU - Kong, Xingxing

AU - Yu, Kai jiang

AU - Wang, Rui tao

AU - Chen, Hong

AU - Guo, Hongbo

AU - Yan, Jianqun

AU - Cunningham, Kathryn A.

AU - Chang, Yongsheng

AU - Liu, Tiemin

AU - Williams, Kevin W.

PY - 2017/1/17

Y1 - 2017/1/17

N2 - The molecular mechanisms underlying acute leptin and serotonin 2C receptor-induced hypophagia remain unclear. Here, we show that neuronal and pro-opiomelanocortin (Pomc)-specific loss of transient receptor potential cation 5 (TrpC5) subunits is sufficient to decrease energy expenditure and increase food intake resulting in elevated body weight. Deficiency of Trpc5 subunits in Pomc neurons is also sufficient to block the anorexigenic effects of leptin and serotonin 2C receptor (Ht2Cr) agonists. The loss of acute anorexigenic effects of these receptors is concomitant with a blunted electrophysiological response to both leptin and Ht2Cr agonists in arcuate Pomc neurons. We also demonstrate that the Ht2Cr agonist lorcaserin-induced improvements in glucose and insulin tolerance are blocked by TrpC5 deficiency in Pomc neurons. Together, our results link TrpC5 subunits in the brain with leptin- and serotonin 2C receptor-dependent changes in neuronal activity, as well as energy balance, feeding behavior, and glucose metabolism.

AB - The molecular mechanisms underlying acute leptin and serotonin 2C receptor-induced hypophagia remain unclear. Here, we show that neuronal and pro-opiomelanocortin (Pomc)-specific loss of transient receptor potential cation 5 (TrpC5) subunits is sufficient to decrease energy expenditure and increase food intake resulting in elevated body weight. Deficiency of Trpc5 subunits in Pomc neurons is also sufficient to block the anorexigenic effects of leptin and serotonin 2C receptor (Ht2Cr) agonists. The loss of acute anorexigenic effects of these receptors is concomitant with a blunted electrophysiological response to both leptin and Ht2Cr agonists in arcuate Pomc neurons. We also demonstrate that the Ht2Cr agonist lorcaserin-induced improvements in glucose and insulin tolerance are blocked by TrpC5 deficiency in Pomc neurons. Together, our results link TrpC5 subunits in the brain with leptin- and serotonin 2C receptor-dependent changes in neuronal activity, as well as energy balance, feeding behavior, and glucose metabolism.

KW - diabetes

KW - electrophysiology

KW - glycemia

KW - leptin

KW - lorcaserin

KW - melanocortin

KW - obesity

KW - patch-clamp

KW - serotonin

KW - thermogenesis

KW - transient receptor potential cation channels

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ER -

TrpC5 Mediates Acute Leptin and Serotonin Effects via Pomc Neurons

Abstract

Keywords

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