Distinct Phosphorylation Clusters Determine the Signaling Outcome of Free Fatty Acid Receptor 4/G Protein-Coupled Receptor 120

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Distinct Phosphorylation Clusters Determine the Signaling Outcome of Free Fatty Acid Receptor 4/G Protein-Coupled Receptor 120. / Prihandoko, Rudi; Alvarez-Curto, Elisa; Hudson, Brian D; Butcher, Adrian J; Ulven, Trond; Miller, Ashley M; Tobin, Andrew B; Milligan, Graeme.

In: Molecular Pharmacology, Vol. 89, No. 5, 2016, p. 505-520.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Prihandoko, R, Alvarez-Curto, E, Hudson, BD, Butcher, AJ, Ulven, T, Miller, AM, Tobin, AB & Milligan, G 2016, 'Distinct Phosphorylation Clusters Determine the Signaling Outcome of Free Fatty Acid Receptor 4/G Protein-Coupled Receptor 120', Molecular Pharmacology, vol. 89, no. 5, pp. 505-520. https://doi.org/10.1124/mol.115.101949

APA

Prihandoko, R., Alvarez-Curto, E., Hudson, B. D., Butcher, A. J., Ulven, T., Miller, A. M., Tobin, A. B., & Milligan, G. (2016). Distinct Phosphorylation Clusters Determine the Signaling Outcome of Free Fatty Acid Receptor 4/G Protein-Coupled Receptor 120. Molecular Pharmacology, 89(5), 505-520. https://doi.org/10.1124/mol.115.101949

Vancouver

Prihandoko R, Alvarez-Curto E, Hudson BD, Butcher AJ, Ulven T, Miller AM et al. Distinct Phosphorylation Clusters Determine the Signaling Outcome of Free Fatty Acid Receptor 4/G Protein-Coupled Receptor 120. Molecular Pharmacology. 2016;89(5):505-520. https://doi.org/10.1124/mol.115.101949

Author

Prihandoko, Rudi ; Alvarez-Curto, Elisa ; Hudson, Brian D ; Butcher, Adrian J ; Ulven, Trond ; Miller, Ashley M ; Tobin, Andrew B ; Milligan, Graeme. / Distinct Phosphorylation Clusters Determine the Signaling Outcome of Free Fatty Acid Receptor 4/G Protein-Coupled Receptor 120. In: Molecular Pharmacology. 2016 ; Vol. 89, No. 5. pp. 505-520.

Bibtex

@article{5a60dc160f8448ce9376f9889d649aec,
title = "Distinct Phosphorylation Clusters Determine the Signaling Outcome of Free Fatty Acid Receptor 4/G Protein-Coupled Receptor 120",
abstract = "It is established that long-chain free fatty acids includingω-3 fatty acids mediate an array of biologic responses through members of the free fatty acid (FFA) receptor family, which includes FFA4. However, the signaling mechanisms and modes of regulation of this receptor class remain unclear. Here, we employed mass spectrometry to determine that phosphorylation of mouse (m)FFAR4 occurs at five serine and threonine residues clustered in two separable regions of the C-terminal tail, designated cluster 1 (Thr(347), Thr(349), and Ser(350)) and cluster 2 (Ser(357)and Ser(361)). Mutation of these phosphoacceptor sites to alanine completely prevented phosphorylation of mFFA4 but did not limit receptor coupling to extracellular signal regulated protein kinase 1 and 2 (ERK1/2) activation. Rather, an inhibitor of Gq/11proteins completely prevented receptor signaling to ERK1/2. By contrast, the recruitment of arrestin 3, receptor internalization, and activation of Akt were regulated by mFFA4 phosphorylation. The analysis of mFFA4 phosphorylation-dependent signaling was extended further by selective mutations of the phosphoacceptor sites. Mutations within cluster 2 did not affect agonist activation of Akt but instead significantly compromised receptor internalization and arrestin 3 recruitment. Distinctly, mutation of the phosphoacceptor sites within cluster 1 had no effect on receptor internalization and had a less extensive effect on arrestin 3 recruitment but significantly uncoupled the receptor from Akt activation. These unique observations define differential effects on signaling mediated by phosphorylation at distinct locations. This hallmark feature supports the possibility that the signaling outcome of mFFA4 activation can be determined by the pattern of phosphorylation (phosphorylation barcode) at the C terminus of the receptor.",
author = "Rudi Prihandoko and Elisa Alvarez-Curto and Hudson, {Brian D} and Butcher, {Adrian J} and Trond Ulven and Miller, {Ashley M} and Tobin, {Andrew B} and Graeme Milligan",
note = "Copyright {\textcopyright} 2016 by The American Society for Pharmacology and Experimental Therapeutics.",
year = "2016",
doi = "10.1124/mol.115.101949",
language = "English",
volume = "89",
pages = "505--520",
journal = "Molecular Pharmacology",
issn = "0026-895X",
publisher = "American Society for Pharmacology and Experimental Therapeutics",
number = "5",

}

RIS

TY - JOUR

T1 - Distinct Phosphorylation Clusters Determine the Signaling Outcome of Free Fatty Acid Receptor 4/G Protein-Coupled Receptor 120

AU - Prihandoko, Rudi

AU - Alvarez-Curto, Elisa

AU - Hudson, Brian D

AU - Butcher, Adrian J

AU - Ulven, Trond

AU - Miller, Ashley M

AU - Tobin, Andrew B

AU - Milligan, Graeme

N1 - Copyright © 2016 by The American Society for Pharmacology and Experimental Therapeutics.

PY - 2016

Y1 - 2016

N2 - It is established that long-chain free fatty acids includingω-3 fatty acids mediate an array of biologic responses through members of the free fatty acid (FFA) receptor family, which includes FFA4. However, the signaling mechanisms and modes of regulation of this receptor class remain unclear. Here, we employed mass spectrometry to determine that phosphorylation of mouse (m)FFAR4 occurs at five serine and threonine residues clustered in two separable regions of the C-terminal tail, designated cluster 1 (Thr(347), Thr(349), and Ser(350)) and cluster 2 (Ser(357)and Ser(361)). Mutation of these phosphoacceptor sites to alanine completely prevented phosphorylation of mFFA4 but did not limit receptor coupling to extracellular signal regulated protein kinase 1 and 2 (ERK1/2) activation. Rather, an inhibitor of Gq/11proteins completely prevented receptor signaling to ERK1/2. By contrast, the recruitment of arrestin 3, receptor internalization, and activation of Akt were regulated by mFFA4 phosphorylation. The analysis of mFFA4 phosphorylation-dependent signaling was extended further by selective mutations of the phosphoacceptor sites. Mutations within cluster 2 did not affect agonist activation of Akt but instead significantly compromised receptor internalization and arrestin 3 recruitment. Distinctly, mutation of the phosphoacceptor sites within cluster 1 had no effect on receptor internalization and had a less extensive effect on arrestin 3 recruitment but significantly uncoupled the receptor from Akt activation. These unique observations define differential effects on signaling mediated by phosphorylation at distinct locations. This hallmark feature supports the possibility that the signaling outcome of mFFA4 activation can be determined by the pattern of phosphorylation (phosphorylation barcode) at the C terminus of the receptor.

AB - It is established that long-chain free fatty acids includingω-3 fatty acids mediate an array of biologic responses through members of the free fatty acid (FFA) receptor family, which includes FFA4. However, the signaling mechanisms and modes of regulation of this receptor class remain unclear. Here, we employed mass spectrometry to determine that phosphorylation of mouse (m)FFAR4 occurs at five serine and threonine residues clustered in two separable regions of the C-terminal tail, designated cluster 1 (Thr(347), Thr(349), and Ser(350)) and cluster 2 (Ser(357)and Ser(361)). Mutation of these phosphoacceptor sites to alanine completely prevented phosphorylation of mFFA4 but did not limit receptor coupling to extracellular signal regulated protein kinase 1 and 2 (ERK1/2) activation. Rather, an inhibitor of Gq/11proteins completely prevented receptor signaling to ERK1/2. By contrast, the recruitment of arrestin 3, receptor internalization, and activation of Akt were regulated by mFFA4 phosphorylation. The analysis of mFFA4 phosphorylation-dependent signaling was extended further by selective mutations of the phosphoacceptor sites. Mutations within cluster 2 did not affect agonist activation of Akt but instead significantly compromised receptor internalization and arrestin 3 recruitment. Distinctly, mutation of the phosphoacceptor sites within cluster 1 had no effect on receptor internalization and had a less extensive effect on arrestin 3 recruitment but significantly uncoupled the receptor from Akt activation. These unique observations define differential effects on signaling mediated by phosphorylation at distinct locations. This hallmark feature supports the possibility that the signaling outcome of mFFA4 activation can be determined by the pattern of phosphorylation (phosphorylation barcode) at the C terminus of the receptor.

U2 - 10.1124/mol.115.101949

DO - 10.1124/mol.115.101949

M3 - Journal article

VL - 89

SP - 505

EP - 520

JO - Molecular Pharmacology

JF - Molecular Pharmacology

SN - 0026-895X

IS - 5

ER -

ID: 189160235