Synthesis and Characterization of a Bidirectional Photoswitchable Antagonist Toolbox for Real-Time GPCR Photopharmacology

Niels J. Hauwert; Tamara A.M. Mocking; Daniel Da Costa Pereira; Albert J. Kooistra; Lisa M. Wijnen; Gerda C.M. Vreeker; Eléonore W.E. Verweij; Albertus H. De Boer; Martine J. Smit; Chris De Graaf; Henry F. Vischer; Iwan J.P. De Esch; Maikel Wijtmans; Rob Leurs

doi:10.1021/jacs.7b11422

Synthesis and Characterization of a Bidirectional Photoswitchable Antagonist Toolbox for Real-Time GPCR Photopharmacology

Niels J. Hauwert, Tamara A.M. Mocking, Daniel Da Costa Pereira, Albert J. Kooistra, Lisa M. Wijnen, Gerda C.M. Vreeker, Eléonore W.E. Verweij, Albertus H. De Boer, Martine J. Smit, Chris De Graaf, Henry F. Vischer, Iwan J.P. De Esch, Maikel Wijtmans^*, Rob Leurs

^*Corresponding author af dette arbejde

25 Citationer (Scopus)

Abstract

Noninvasive methods to modulate G protein-coupled receptors (GPCRs) with temporal and spatial precision are in great demand. Photopharmacology uses photons to control in situ the biological properties of photoswitchable small-molecule ligands, which bodes well for chemical biological precision approaches. Integrating the light-switchable configurational properties of an azobenzene into the ligand core, we developed a bidirectional antagonist toolbox for an archetypical family A GPCR, the histamine H₃ receptor (H₃R). From 16 newly synthesized photoswitchable compounds, VUF14738 (28) and VUF14862 (33) were selected as they swiftly and reversibly photoisomerize and show over 10-fold increased or decreased H₃R binding affinities, respectively, upon illumination at 360 nm. Both ligands combine long thermal half-lives with fast and high photochemical trans-/cis conversion, allowing their use in real-time electrophysiology experiments with oocytes to confirm dynamic photomodulation of H₃R activation in repeated second-scale cycles. VUF14738 and VUF14862 are robust and fatigue-resistant photoswitchable GPCR antagonists suitable for spatiotemporal studies of H₃R signaling.

Originalsprog	Engelsk
Tidsskrift	Journal of the American Chemical Society
Vol/bind	140
Udgave nummer	12
Sider (fra-til)	4232-4243
Antal sider	12
ISSN	0002-7863
DOI	https://doi.org/10.1021/jacs.7b11422
Status	Udgivet - 28 mar. 2018
Udgivet eksternt	Ja

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Hauwert, N. J., Mocking, T. A. M., Da Costa Pereira, D., Kooistra, A. J., Wijnen, L. M., Vreeker, G. C. M., Verweij, E. W. E., De Boer, A. H., Smit, M. J., De Graaf, C., Vischer, H. F., De Esch, I. J. P., Wijtmans, M., & Leurs, R. (2018). Synthesis and Characterization of a Bidirectional Photoswitchable Antagonist Toolbox for Real-Time GPCR Photopharmacology. Journal of the American Chemical Society, 140(12), 4232-4243. https://doi.org/10.1021/jacs.7b11422

Synthesis and Characterization of a Bidirectional Photoswitchable Antagonist Toolbox for Real-Time GPCR Photopharmacology. / Hauwert, Niels J.; Mocking, Tamara A.M.; Da Costa Pereira, Daniel et al.

I: Journal of the American Chemical Society, Bind 140, Nr. 12, 28.03.2018, s. 4232-4243.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

Hauwert, NJ, Mocking, TAM, Da Costa Pereira, D, Kooistra, AJ, Wijnen, LM, Vreeker, GCM, Verweij, EWE, De Boer, AH, Smit, MJ, De Graaf, C, Vischer, HF, De Esch, IJP, Wijtmans, M & Leurs, R 2018, 'Synthesis and Characterization of a Bidirectional Photoswitchable Antagonist Toolbox for Real-Time GPCR Photopharmacology', Journal of the American Chemical Society, bind 140, nr. 12, s. 4232-4243. https://doi.org/10.1021/jacs.7b11422

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abstract = "Noninvasive methods to modulate G protein-coupled receptors (GPCRs) with temporal and spatial precision are in great demand. Photopharmacology uses photons to control in situ the biological properties of photoswitchable small-molecule ligands, which bodes well for chemical biological precision approaches. Integrating the light-switchable configurational properties of an azobenzene into the ligand core, we developed a bidirectional antagonist toolbox for an archetypical family A GPCR, the histamine H3 receptor (H3R). From 16 newly synthesized photoswitchable compounds, VUF14738 (28) and VUF14862 (33) were selected as they swiftly and reversibly photoisomerize and show over 10-fold increased or decreased H3R binding affinities, respectively, upon illumination at 360 nm. Both ligands combine long thermal half-lives with fast and high photochemical trans-/cis conversion, allowing their use in real-time electrophysiology experiments with oocytes to confirm dynamic photomodulation of H3R activation in repeated second-scale cycles. VUF14738 and VUF14862 are robust and fatigue-resistant photoswitchable GPCR antagonists suitable for spatiotemporal studies of H3R signaling.",

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AU - Kooistra, Albert J.

AU - Wijnen, Lisa M.

AU - Vreeker, Gerda C.M.

AU - Verweij, Eléonore W.E.

AU - De Boer, Albertus H.

AU - Smit, Martine J.

AU - De Graaf, Chris

AU - Vischer, Henry F.

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AU - Wijtmans, Maikel

AU - Leurs, Rob

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AB - Noninvasive methods to modulate G protein-coupled receptors (GPCRs) with temporal and spatial precision are in great demand. Photopharmacology uses photons to control in situ the biological properties of photoswitchable small-molecule ligands, which bodes well for chemical biological precision approaches. Integrating the light-switchable configurational properties of an azobenzene into the ligand core, we developed a bidirectional antagonist toolbox for an archetypical family A GPCR, the histamine H3 receptor (H3R). From 16 newly synthesized photoswitchable compounds, VUF14738 (28) and VUF14862 (33) were selected as they swiftly and reversibly photoisomerize and show over 10-fold increased or decreased H3R binding affinities, respectively, upon illumination at 360 nm. Both ligands combine long thermal half-lives with fast and high photochemical trans-/cis conversion, allowing their use in real-time electrophysiology experiments with oocytes to confirm dynamic photomodulation of H3R activation in repeated second-scale cycles. VUF14738 and VUF14862 are robust and fatigue-resistant photoswitchable GPCR antagonists suitable for spatiotemporal studies of H3R signaling.

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Synthesis and Characterization of a Bidirectional Photoswitchable Antagonist Toolbox for Real-Time GPCR Photopharmacology

Abstract

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