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A fine-tuned azobenzene for enhanced photopharmacology in vivo.

Cell chemical biology (2021-03-19)
Vanessa A Gutzeit, Amanda Acosta-Ruiz, Hermany Munguba, Stephanie Häfner, Arnaud Landra-Willm, Bettina Mathes, Jürgen Mony, Dzianis Yarotski, Karl Börjesson, Conor Liston, Guillaume Sandoz, Joshua Levitz, Johannes Broichhagen
ANOTACE

Despite the power of photopharmacology for interrogating signaling proteins, many photopharmacological systems are limited by their efficiency, speed, or spectral properties. Here, we screen a library of azobenzene photoswitches and identify a urea-substituted "azobenzene-400" core that offers bistable switching between cis and trans with improved kinetics, light sensitivity, and a red-shift. We then focus on the metabotropic glutamate receptors (mGluRs), neuromodulatory receptors that are major pharmacological targets. Synthesis of "BGAG12,400," a photoswitchable orthogonal, remotely tethered ligand (PORTL), enables highly efficient, rapid optical agonism following conjugation to SNAP-tagged mGluR2 and permits robust optical control of mGluR1 and mGluR5 signaling. We then produce fluorophore-conjugated branched PORTLs to enable dual imaging and manipulation of mGluRs and highlight their power in ex vivo slice and in vivo behavioral experiments in the mouse prefrontal cortex. Finally, we demonstrate the generalizability of our strategy by developing an improved soluble, photoswitchable pore blocker for potassium channels.

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Trypsin Agarose, buffered aqueous suspension, from bovine pancreas trypsin