Barbadin selectively modulates FPR2-mediated neutrophil functions independent of receptor endocytosis

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Standard

Barbadin selectively modulates FPR2-mediated neutrophil functions independent of receptor endocytosis. / Sundqvist, Martina; Holdfeldt, André; Wright, Shane C; Møller, Thor C; Siaw, Esther; Jennbacken, Karin; Franzyk, Henrik; Bouvier, Michel; Dahlgren, Claes; Forsman, Huamei.

I: B B A - Molecular Cell Research, Bind 1867, Nr. 12, 118849, 2020.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Sundqvist, M, Holdfeldt, A, Wright, SC, Møller, TC, Siaw, E, Jennbacken, K, Franzyk, H, Bouvier, M, Dahlgren, C & Forsman, H 2020, 'Barbadin selectively modulates FPR2-mediated neutrophil functions independent of receptor endocytosis', B B A - Molecular Cell Research, bind 1867, nr. 12, 118849. https://doi.org/10.1016/j.bbamcr.2020.118849

APA

Sundqvist, M., Holdfeldt, A., Wright, S. C., Møller, T. C., Siaw, E., Jennbacken, K., Franzyk, H., Bouvier, M., Dahlgren, C., & Forsman, H. (2020). Barbadin selectively modulates FPR2-mediated neutrophil functions independent of receptor endocytosis. B B A - Molecular Cell Research, 1867(12), [118849]. https://doi.org/10.1016/j.bbamcr.2020.118849

Vancouver

Sundqvist M, Holdfeldt A, Wright SC, Møller TC, Siaw E, Jennbacken K o.a. Barbadin selectively modulates FPR2-mediated neutrophil functions independent of receptor endocytosis. B B A - Molecular Cell Research. 2020;1867(12). 118849. https://doi.org/10.1016/j.bbamcr.2020.118849

Author

Sundqvist, Martina ; Holdfeldt, André ; Wright, Shane C ; Møller, Thor C ; Siaw, Esther ; Jennbacken, Karin ; Franzyk, Henrik ; Bouvier, Michel ; Dahlgren, Claes ; Forsman, Huamei. / Barbadin selectively modulates FPR2-mediated neutrophil functions independent of receptor endocytosis. I: B B A - Molecular Cell Research. 2020 ; Bind 1867, Nr. 12.

Bibtex

@article{2f4884860f8d4ace8a3eb9132f4c87da,
title = "Barbadin selectively modulates FPR2-mediated neutrophil functions independent of receptor endocytosis",
abstract = "FPR2, a member of the family of G protein-coupled receptors (GPCRs), mediates neutrophil migration, a response that has been linked to β-arrestin recruitment. β-Arrestin regulates GPCR endocytosis and can also elicit non-canonical receptor signaling. To determine the poorly understood role of β-arrestin in FPR2 endocytosis and in NADPH-oxidase activation in neutrophils, Barbadin was used as a research tool in this study. Barbadin has been shown to bind the clathrin adaptor protein (AP2) and thereby prevent β-arrestin/AP2 interaction and β-arrestin-mediated GPCR endocytosis. In agreement with this, AP2/β-arrestin interaction induced by an FPR2-specific agonist was inhibited by Barbadin. Unexpectedly, however, Barbadin did not inhibit FPR2 endocytosis, indicating that a mechanism independent of β-arrestin/AP2 interaction may sustain FPR2 endocytosis. This was confirmed by the fact, that FPR2 also underwent agonist-promoted endocytosis in β-arrestin deficient cells, albeit at a diminished level as compared to wild type cells. Dissection of the Barbadin effects on FPR2-mediated neutrophil functions including NADPH-oxidase activation mediated release of reactive oxygen species (ROS) and chemotaxis revealed that Barbadin had no effect on chemotactic migration whereas the release of ROS was potentiated/primed. The effect of Barbadin on ROS production was reversible, independent of β-arrestin recruitment, and similar to that induced by latrunculin A. Taken together, our data demonstrate that endocytic uptake of FPR2 occurs independently of β-arrestin, while Barbadin selectively augments FPR2-mediated ROS production independently of receptor endocytosis. Given that Barbadin binds to AP2 and prevents the AP2/β-arrestin interaction, our results indicate a role for AP2 in FPR2-mediated ROS release from neutrophils.",
author = "Martina Sundqvist and Andr{\'e} Holdfeldt and Wright, {Shane C} and M{\o}ller, {Thor C} and Esther Siaw and Karin Jennbacken and Henrik Franzyk and Michel Bouvier and Claes Dahlgren and Huamei Forsman",
note = "Copyright {\textcopyright} 2020. Published by Elsevier B.V.",
year = "2020",
doi = "10.1016/j.bbamcr.2020.118849",
language = "English",
volume = "1867",
journal = "B B A - Molecular Cell Research",
issn = "0167-4889",
publisher = "Elsevier",
number = "12",

}

RIS

TY - JOUR

T1 - Barbadin selectively modulates FPR2-mediated neutrophil functions independent of receptor endocytosis

AU - Sundqvist, Martina

AU - Holdfeldt, André

AU - Wright, Shane C

AU - Møller, Thor C

AU - Siaw, Esther

AU - Jennbacken, Karin

AU - Franzyk, Henrik

AU - Bouvier, Michel

AU - Dahlgren, Claes

AU - Forsman, Huamei

N1 - Copyright © 2020. Published by Elsevier B.V.

PY - 2020

Y1 - 2020

N2 - FPR2, a member of the family of G protein-coupled receptors (GPCRs), mediates neutrophil migration, a response that has been linked to β-arrestin recruitment. β-Arrestin regulates GPCR endocytosis and can also elicit non-canonical receptor signaling. To determine the poorly understood role of β-arrestin in FPR2 endocytosis and in NADPH-oxidase activation in neutrophils, Barbadin was used as a research tool in this study. Barbadin has been shown to bind the clathrin adaptor protein (AP2) and thereby prevent β-arrestin/AP2 interaction and β-arrestin-mediated GPCR endocytosis. In agreement with this, AP2/β-arrestin interaction induced by an FPR2-specific agonist was inhibited by Barbadin. Unexpectedly, however, Barbadin did not inhibit FPR2 endocytosis, indicating that a mechanism independent of β-arrestin/AP2 interaction may sustain FPR2 endocytosis. This was confirmed by the fact, that FPR2 also underwent agonist-promoted endocytosis in β-arrestin deficient cells, albeit at a diminished level as compared to wild type cells. Dissection of the Barbadin effects on FPR2-mediated neutrophil functions including NADPH-oxidase activation mediated release of reactive oxygen species (ROS) and chemotaxis revealed that Barbadin had no effect on chemotactic migration whereas the release of ROS was potentiated/primed. The effect of Barbadin on ROS production was reversible, independent of β-arrestin recruitment, and similar to that induced by latrunculin A. Taken together, our data demonstrate that endocytic uptake of FPR2 occurs independently of β-arrestin, while Barbadin selectively augments FPR2-mediated ROS production independently of receptor endocytosis. Given that Barbadin binds to AP2 and prevents the AP2/β-arrestin interaction, our results indicate a role for AP2 in FPR2-mediated ROS release from neutrophils.

AB - FPR2, a member of the family of G protein-coupled receptors (GPCRs), mediates neutrophil migration, a response that has been linked to β-arrestin recruitment. β-Arrestin regulates GPCR endocytosis and can also elicit non-canonical receptor signaling. To determine the poorly understood role of β-arrestin in FPR2 endocytosis and in NADPH-oxidase activation in neutrophils, Barbadin was used as a research tool in this study. Barbadin has been shown to bind the clathrin adaptor protein (AP2) and thereby prevent β-arrestin/AP2 interaction and β-arrestin-mediated GPCR endocytosis. In agreement with this, AP2/β-arrestin interaction induced by an FPR2-specific agonist was inhibited by Barbadin. Unexpectedly, however, Barbadin did not inhibit FPR2 endocytosis, indicating that a mechanism independent of β-arrestin/AP2 interaction may sustain FPR2 endocytosis. This was confirmed by the fact, that FPR2 also underwent agonist-promoted endocytosis in β-arrestin deficient cells, albeit at a diminished level as compared to wild type cells. Dissection of the Barbadin effects on FPR2-mediated neutrophil functions including NADPH-oxidase activation mediated release of reactive oxygen species (ROS) and chemotaxis revealed that Barbadin had no effect on chemotactic migration whereas the release of ROS was potentiated/primed. The effect of Barbadin on ROS production was reversible, independent of β-arrestin recruitment, and similar to that induced by latrunculin A. Taken together, our data demonstrate that endocytic uptake of FPR2 occurs independently of β-arrestin, while Barbadin selectively augments FPR2-mediated ROS production independently of receptor endocytosis. Given that Barbadin binds to AP2 and prevents the AP2/β-arrestin interaction, our results indicate a role for AP2 in FPR2-mediated ROS release from neutrophils.

U2 - 10.1016/j.bbamcr.2020.118849

DO - 10.1016/j.bbamcr.2020.118849

M3 - Journal article

C2 - 32916203

VL - 1867

JO - B B A - Molecular Cell Research

JF - B B A - Molecular Cell Research

SN - 0167-4889

IS - 12

M1 - 118849

ER -

ID: 248695838