BTDAzo: A Photoswitchable TRPC5 Channel Activator

Photoswitchable reagents can be powerful tools for high‐precision biological control. TRPC5 is a Ca2+‐permeable cation channel with distinct tissue‐specific roles, from synaptic function to hormone regulation. Reagents giving spatiotemporally‐resolved control over TRPC5 activity may be key to unders...

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Veröffentlicht in:	Angewandte Chemie 2022-09, Vol.134 (36), p.n/a
Hauptverfasser:	Müller, Markus, Niemeyer, Konstantin, Urban, Nicole, Ojha, Navin K., Zufall, Frank, Leinders‐Zufall, Trese, Schaefer, Michael, Thorn‐Seshold, Oliver
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Sprache:	eng
Schlagworte:	Agonists Biological control Biology Brain slice preparation Calcium ions Calcium permeability Cation Channels Cell culture Chemistry Ion channels Ligand Design Photopharmacology Prolactin Signaling Reagents
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creator	Müller, Markus Niemeyer, Konstantin Urban, Nicole Ojha, Navin K. Zufall, Frank Leinders‐Zufall, Trese Schaefer, Michael Thorn‐Seshold, Oliver
description	Photoswitchable reagents can be powerful tools for high‐precision biological control. TRPC5 is a Ca2+‐permeable cation channel with distinct tissue‐specific roles, from synaptic function to hormone regulation. Reagents giving spatiotemporally‐resolved control over TRPC5 activity may be key to understanding and harnessing its biology. Here we develop the first photoswitchable TRPC5‐modulator, BTDAzo, to address this goal. BTDAzo can photocontrol TRPC5 currents in cell culture, as well as controlling endogenous TRPC5‐based neuronal Ca2+ responses in mouse brain slices. BTDAzos are also the first reported azo‐benzothiadiazines, an accessible and conveniently derivatised azoheteroarene with strong two‐colour photoswitching. BTDAzo′s ability to control TRPC5 across relevant channel biology settings makes it suitable for a range of dynamically reversible photoswitching studies in TRP channel biology, with the aim to decipher the various biological roles of this centrally important ion channel. The TRPs (Transient Receptor Potentials) are important sensory ion channels with roles in perception including of heat, cold, and electrophiles, as well as in signaling and mineralostasis. Here the first photopharmaceutical TRPC5 ligand, BTDAzo, is developed, which achieves outstanding photoswitchability of TRPC5 currents in physiological models including brain slice, without crosstalk to the related TRPC4 channel.
doi_str_mv	10.1002/ange.202201565
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subjects	Agonists Biological control Biology Brain slice preparation Calcium ions Calcium permeability Cation Channels Cell culture Chemistry Ion channels Ligand Design Photopharmacology Prolactin Signaling Reagents
title	BTDAzo: A Photoswitchable TRPC5 Channel Activator
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