Optical control of GPR40 signalling in pancreatic β-cells

James Allen Frank; Dmytro A. Yushchenko; Nicholas H.F. Fine; Margherita Duca; Mevlut Citir; Johannes Broichhagen; David J. Hodson; Carsten Schultz; Dirk Trauner

doi:10.1039/c7sc01475a

Optical control of GPR40 signalling in pancreatic β-cells

James Allen Frank, Dmytro A. Yushchenko, Nicholas H.F. Fine, Margherita Duca, Mevlut Citir, Johannes Broichhagen, David J. Hodson, Carsten Schultz, Dirk Trauner

Chemical Physiology and Biochemistry

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

36 Scopus citations

Abstract

Fatty acids activate GPR40 and K⁺ channels to modulate β-cell function. Herein, we describe the design and synthesis of FAAzo-10, a light-controllable GPR40 agonist based on Gw-9508. FAAzo-10 is a potent GPR40 agonist in the trans-configuration and can be inactivated on isomerization to cis with UV-A light. Irradiation with blue light reverses this effect, allowing FAAzo-10 activity to be cycled ON and OFF with a high degree of spatiotemporal precision. In dissociated primary mouse β-cells, FAAzo-10 also inactivates voltage-activated and ATP-sensitive K⁺ channels, and allows us to control glucose-stimulated Ca²⁺ oscillations in whole islets with light. As such, FAAzo-10 is a useful tool to study the complex effects, with high specificity, which FA-derivatives such as Gw-9508 exert at multiple targets in mouse β-cells.

Original language	English (US)
Pages (from-to)	7604-7610
Number of pages	7
Journal	Chemical Science
Volume	8
Issue number	11
DOIs	https://doi.org/10.1039/c7sc01475a
State	Published - 2017

ASJC Scopus subject areas

General Chemistry

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title = "Optical control of GPR40 signalling in pancreatic β-cells",

abstract = "Fatty acids activate GPR40 and K+ channels to modulate β-cell function. Herein, we describe the design and synthesis of FAAzo-10, a light-controllable GPR40 agonist based on Gw-9508. FAAzo-10 is a potent GPR40 agonist in the trans-configuration and can be inactivated on isomerization to cis with UV-A light. Irradiation with blue light reverses this effect, allowing FAAzo-10 activity to be cycled ON and OFF with a high degree of spatiotemporal precision. In dissociated primary mouse β-cells, FAAzo-10 also inactivates voltage-activated and ATP-sensitive K+ channels, and allows us to control glucose-stimulated Ca2+ oscillations in whole islets with light. As such, FAAzo-10 is a useful tool to study the complex effects, with high specificity, which FA-derivatives such as Gw-9508 exert at multiple targets in mouse β-cells.",

author = "Frank, {James Allen} and Yushchenko, {Dmytro A.} and Fine, {Nicholas H.F.} and Margherita Duca and Mevlut Citir and Johannes Broichhagen and Hodson, {David J.} and Carsten Schultz and Dirk Trauner",

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AU - Frank, James Allen

AU - Yushchenko, Dmytro A.

AU - Fine, Nicholas H.F.

AU - Duca, Margherita

AU - Citir, Mevlut

AU - Broichhagen, Johannes

AU - Hodson, David J.

AU - Schultz, Carsten

AU - Trauner, Dirk

PY - 2017

Y1 - 2017

N2 - Fatty acids activate GPR40 and K+ channels to modulate β-cell function. Herein, we describe the design and synthesis of FAAzo-10, a light-controllable GPR40 agonist based on Gw-9508. FAAzo-10 is a potent GPR40 agonist in the trans-configuration and can be inactivated on isomerization to cis with UV-A light. Irradiation with blue light reverses this effect, allowing FAAzo-10 activity to be cycled ON and OFF with a high degree of spatiotemporal precision. In dissociated primary mouse β-cells, FAAzo-10 also inactivates voltage-activated and ATP-sensitive K+ channels, and allows us to control glucose-stimulated Ca2+ oscillations in whole islets with light. As such, FAAzo-10 is a useful tool to study the complex effects, with high specificity, which FA-derivatives such as Gw-9508 exert at multiple targets in mouse β-cells.

AB - Fatty acids activate GPR40 and K+ channels to modulate β-cell function. Herein, we describe the design and synthesis of FAAzo-10, a light-controllable GPR40 agonist based on Gw-9508. FAAzo-10 is a potent GPR40 agonist in the trans-configuration and can be inactivated on isomerization to cis with UV-A light. Irradiation with blue light reverses this effect, allowing FAAzo-10 activity to be cycled ON and OFF with a high degree of spatiotemporal precision. In dissociated primary mouse β-cells, FAAzo-10 also inactivates voltage-activated and ATP-sensitive K+ channels, and allows us to control glucose-stimulated Ca2+ oscillations in whole islets with light. As such, FAAzo-10 is a useful tool to study the complex effects, with high specificity, which FA-derivatives such as Gw-9508 exert at multiple targets in mouse β-cells.

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JF - Chemical Science

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ER -

Optical control of GPR40 signalling in pancreatic β-cells

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