Autocrine negative feedback regulation of lipolysis through sensing of NEFAs by FFAR4/GPR120 in WAT

Anna Sofie Husted; Jeppe Ekberg; Emma Tripp; Tinne Nissen; Stijn Meijnikman; Shannon O'Brien; Trond Ulven; Yair Acherman; Sjoerd Bruin; Max Nieuwdorp; Zach Gerhart-Hines; Davide Calebiro; Lars Dragsted; Thue Schwartz

doi:10.1016/j.molmet.2020.101103

Autocrine negative feedback regulation of lipolysis through sensing of NEFAs by FFAR4/GPR120 in WAT

Anna Sofie Husted, Jeppe Ekberg, Emma Tripp, Tinne Nissen, Stijn Meijnikman, Shannon O'Brien, Trond Ulven, Yair Acherman, Sjoerd Bruin, Max Nieuwdorp, Zach Gerhart-Hines, Davide Calebiro, Lars Dragsted, Thue Schwartz

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Abstract

Objectives: Long-chain fatty acids (LCFAs) released from adipocytes inhibit lipolysis through an unclear mechanism. We hypothesized that the LCFA receptor, FFAR4 (GPR120), which is highly expressed in adipocytes, may be involved in this feedback regulation. Methods and results: Liquid chromatography mass spectrometry (LC-MS) analysis of conditioned media from isoproterenol-stimulated primary cultures of murine and human adipocytes demonstrated that most of the released non-esterified free fatty acids (NEFAs) are known agonists for FFAR4. In agreement with this, conditioned medium from isoproterenol-treated adipocytes stimulated signaling strongly in FFAR4 transfected COS-7 cells as opposed to non-transfected control cells. In transfected 3T3-L1 cells, FFAR4 agonism stimulated Gi- and Go-mini G protein binding more strongly than Gq, effects which were blocked by the selective FFAR4 antagonist AH7614. In primary cultures of murine white adipocytes, the synthetic, selective FFAR4 agonist CpdA inhibited isoproterenol-induced intracellular cAMP accumulation in a manner similar to the antilipolytic control agent nicotinic acid acting through another receptor, HCAR2. In vivo, oral gavage with the synthetic, specific FFAR4 agonist CpdB decreased the level of circulating NEFAs in fasting lean mice to a similar degree as nicotinic acid. In agreement with the identified anti-lipolytic effect of FFAR4, plasma NEFAs and glycerol were increased in FFAR4-deficient mice as compared to littermate controls despite having elevated insulin levels, and cAMP accumulation in primary adipocyte cultures was augmented by treatment with the FFAR4 antagonist conceivably by blocking the stimulatory tone of endogenous NEFAs on FFAR4. Conclusions: In white adipocytes, FFAR4 functions as an NEFA-activated, autocrine, negative feedback regulator of lipolysis by decreasing cAMP though Gi-mediated signaling.

Original language	English
Article number	101103
Journal	Molecular metabolism
Volume	42
Early online date	19 Oct 2020
DOIs	https://doi.org/10.1016/j.molmet.2020.101103
Publication status	Published - Dec 2020

Bibliographical note

Funding Information:
We thank Barbara Thaysen and Cecilie Fryland Appledorff for expert technical assistance. The work was supported by Challenge Grant NNF140C0013655 , Challenge Grant NNF15OC0016798 , and Immunometabolism Grant NNF15CC0018346 , all from the Novo Nordisk Foundation (TWS) and The Novo Nordisk Foundation Center for Basic Metabolic Research is supported by an unconditional grant ( NNF10CC1016515 ) from the Novo Nordisk Foundation to University of Copenhagen; additional support for analytical development was obtained from the Carlsberg Foundation (Semper Ardens to LOD). DC is supported by a Wellcome Trust Senior Research Fellowship ( 212313/Z/18/Z ).

Keywords

Autocrine
FFAR4
GPCR
GPR120
Lipolysis
NEFA

ASJC Scopus subject areas

Molecular Biology
Cell Biology

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Husted, A. S., Ekberg, J., Tripp, E., Nissen, T., Meijnikman, S., O'Brien, S., Ulven, T., Acherman, Y., Bruin, S., Nieuwdorp, M., Gerhart-Hines, Z., Calebiro, D., Dragsted, L., & Schwartz, T. (2020). Autocrine negative feedback regulation of lipolysis through sensing of NEFAs by FFAR4/GPR120 in WAT. Molecular metabolism, 42, Article 101103. Advance online publication. https://doi.org/10.1016/j.molmet.2020.101103

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title = "Autocrine negative feedback regulation of lipolysis through sensing of NEFAs by FFAR4/GPR120 in WAT",

abstract = "Objectives: Long-chain fatty acids (LCFAs) released from adipocytes inhibit lipolysis through an unclear mechanism. We hypothesized that the LCFA receptor, FFAR4 (GPR120), which is highly expressed in adipocytes, may be involved in this feedback regulation. Methods and results: Liquid chromatography mass spectrometry (LC-MS) analysis of conditioned media from isoproterenol-stimulated primary cultures of murine and human adipocytes demonstrated that most of the released non-esterified free fatty acids (NEFAs) are known agonists for FFAR4. In agreement with this, conditioned medium from isoproterenol-treated adipocytes stimulated signaling strongly in FFAR4 transfected COS-7 cells as opposed to non-transfected control cells. In transfected 3T3-L1 cells, FFAR4 agonism stimulated Gi- and Go-mini G protein binding more strongly than Gq, effects which were blocked by the selective FFAR4 antagonist AH7614. In primary cultures of murine white adipocytes, the synthetic, selective FFAR4 agonist CpdA inhibited isoproterenol-induced intracellular cAMP accumulation in a manner similar to the antilipolytic control agent nicotinic acid acting through another receptor, HCAR2. In vivo, oral gavage with the synthetic, specific FFAR4 agonist CpdB decreased the level of circulating NEFAs in fasting lean mice to a similar degree as nicotinic acid. In agreement with the identified anti-lipolytic effect of FFAR4, plasma NEFAs and glycerol were increased in FFAR4-deficient mice as compared to littermate controls despite having elevated insulin levels, and cAMP accumulation in primary adipocyte cultures was augmented by treatment with the FFAR4 antagonist conceivably by blocking the stimulatory tone of endogenous NEFAs on FFAR4. Conclusions: In white adipocytes, FFAR4 functions as an NEFA-activated, autocrine, negative feedback regulator of lipolysis by decreasing cAMP though Gi-mediated signaling.",

keywords = "Autocrine, FFAR4, GPCR, GPR120, Lipolysis, NEFA",

author = "Husted, {Anna Sofie} and Jeppe Ekberg and Emma Tripp and Tinne Nissen and Stijn Meijnikman and Shannon O'Brien and Trond Ulven and Yair Acherman and Sjoerd Bruin and Max Nieuwdorp and Zach Gerhart-Hines and Davide Calebiro and Lars Dragsted and Thue Schwartz",

note = "Funding Information: We thank Barbara Thaysen and Cecilie Fryland Appledorff for expert technical assistance. The work was supported by Challenge Grant NNF140C0013655 , Challenge Grant NNF15OC0016798 , and Immunometabolism Grant NNF15CC0018346 , all from the Novo Nordisk Foundation (TWS) and The Novo Nordisk Foundation Center for Basic Metabolic Research is supported by an unconditional grant ( NNF10CC1016515 ) from the Novo Nordisk Foundation to University of Copenhagen; additional support for analytical development was obtained from the Carlsberg Foundation (Semper Ardens to LOD). DC is supported by a Wellcome Trust Senior Research Fellowship ( 212313/Z/18/Z ).",

year = "2020",

month = dec,

doi = "10.1016/j.molmet.2020.101103",

language = "English",

volume = "42",

journal = "Molecular metabolism",

issn = "2212-8778",

publisher = "Elsevier",

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TY - JOUR

T1 - Autocrine negative feedback regulation of lipolysis through sensing of NEFAs by FFAR4/GPR120 in WAT

AU - Husted, Anna Sofie

AU - Ekberg, Jeppe

AU - Tripp, Emma

AU - Nissen, Tinne

AU - Meijnikman, Stijn

AU - O'Brien, Shannon

AU - Ulven, Trond

AU - Acherman, Yair

AU - Bruin, Sjoerd

AU - Nieuwdorp, Max

AU - Gerhart-Hines, Zach

AU - Calebiro, Davide

AU - Dragsted, Lars

AU - Schwartz, Thue

N1 - Funding Information: We thank Barbara Thaysen and Cecilie Fryland Appledorff for expert technical assistance. The work was supported by Challenge Grant NNF140C0013655 , Challenge Grant NNF15OC0016798 , and Immunometabolism Grant NNF15CC0018346 , all from the Novo Nordisk Foundation (TWS) and The Novo Nordisk Foundation Center for Basic Metabolic Research is supported by an unconditional grant ( NNF10CC1016515 ) from the Novo Nordisk Foundation to University of Copenhagen; additional support for analytical development was obtained from the Carlsberg Foundation (Semper Ardens to LOD). DC is supported by a Wellcome Trust Senior Research Fellowship ( 212313/Z/18/Z ).

PY - 2020/12

Y1 - 2020/12

N2 - Objectives: Long-chain fatty acids (LCFAs) released from adipocytes inhibit lipolysis through an unclear mechanism. We hypothesized that the LCFA receptor, FFAR4 (GPR120), which is highly expressed in adipocytes, may be involved in this feedback regulation. Methods and results: Liquid chromatography mass spectrometry (LC-MS) analysis of conditioned media from isoproterenol-stimulated primary cultures of murine and human adipocytes demonstrated that most of the released non-esterified free fatty acids (NEFAs) are known agonists for FFAR4. In agreement with this, conditioned medium from isoproterenol-treated adipocytes stimulated signaling strongly in FFAR4 transfected COS-7 cells as opposed to non-transfected control cells. In transfected 3T3-L1 cells, FFAR4 agonism stimulated Gi- and Go-mini G protein binding more strongly than Gq, effects which were blocked by the selective FFAR4 antagonist AH7614. In primary cultures of murine white adipocytes, the synthetic, selective FFAR4 agonist CpdA inhibited isoproterenol-induced intracellular cAMP accumulation in a manner similar to the antilipolytic control agent nicotinic acid acting through another receptor, HCAR2. In vivo, oral gavage with the synthetic, specific FFAR4 agonist CpdB decreased the level of circulating NEFAs in fasting lean mice to a similar degree as nicotinic acid. In agreement with the identified anti-lipolytic effect of FFAR4, plasma NEFAs and glycerol were increased in FFAR4-deficient mice as compared to littermate controls despite having elevated insulin levels, and cAMP accumulation in primary adipocyte cultures was augmented by treatment with the FFAR4 antagonist conceivably by blocking the stimulatory tone of endogenous NEFAs on FFAR4. Conclusions: In white adipocytes, FFAR4 functions as an NEFA-activated, autocrine, negative feedback regulator of lipolysis by decreasing cAMP though Gi-mediated signaling.

AB - Objectives: Long-chain fatty acids (LCFAs) released from adipocytes inhibit lipolysis through an unclear mechanism. We hypothesized that the LCFA receptor, FFAR4 (GPR120), which is highly expressed in adipocytes, may be involved in this feedback regulation. Methods and results: Liquid chromatography mass spectrometry (LC-MS) analysis of conditioned media from isoproterenol-stimulated primary cultures of murine and human adipocytes demonstrated that most of the released non-esterified free fatty acids (NEFAs) are known agonists for FFAR4. In agreement with this, conditioned medium from isoproterenol-treated adipocytes stimulated signaling strongly in FFAR4 transfected COS-7 cells as opposed to non-transfected control cells. In transfected 3T3-L1 cells, FFAR4 agonism stimulated Gi- and Go-mini G protein binding more strongly than Gq, effects which were blocked by the selective FFAR4 antagonist AH7614. In primary cultures of murine white adipocytes, the synthetic, selective FFAR4 agonist CpdA inhibited isoproterenol-induced intracellular cAMP accumulation in a manner similar to the antilipolytic control agent nicotinic acid acting through another receptor, HCAR2. In vivo, oral gavage with the synthetic, specific FFAR4 agonist CpdB decreased the level of circulating NEFAs in fasting lean mice to a similar degree as nicotinic acid. In agreement with the identified anti-lipolytic effect of FFAR4, plasma NEFAs and glycerol were increased in FFAR4-deficient mice as compared to littermate controls despite having elevated insulin levels, and cAMP accumulation in primary adipocyte cultures was augmented by treatment with the FFAR4 antagonist conceivably by blocking the stimulatory tone of endogenous NEFAs on FFAR4. Conclusions: In white adipocytes, FFAR4 functions as an NEFA-activated, autocrine, negative feedback regulator of lipolysis by decreasing cAMP though Gi-mediated signaling.

KW - Autocrine

KW - FFAR4

KW - GPCR

KW - GPR120

KW - Lipolysis

KW - NEFA

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U2 - 10.1016/j.molmet.2020.101103

DO - 10.1016/j.molmet.2020.101103

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SN - 2212-8778

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JO - Molecular metabolism

JF - Molecular metabolism

M1 - 101103

ER -

Autocrine negative feedback regulation of lipolysis through sensing of NEFAs by FFAR4/GPR120 in WAT

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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