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Cell specific photoswitchable agonist for reversible control of endogenous dopamine receptors

Prashant Donthamsetti, Nils Winter, Adam Hoagland, Cherise Stanley, Meike Visel, Stephan Lammel, Dirk Trauner, Ehud Y. Isacoff

2021Nature Communications49 citationsDOIOpen Access PDF

Abstract

Abstract Dopamine controls diverse behaviors and their dysregulation contributes to many disorders. Our ability to understand and manipulate the function of dopamine is limited by the heterogenous nature of dopaminergic projections, the diversity of neurons that are regulated by dopamine, the varying distribution of the five dopamine receptors (DARs), and the complex dynamics of dopamine release. In order to improve our ability to specifically modulate distinct DARs, here we develop a photo-pharmacological strategy using a Membrane anchored Photoswitchable orthogonal remotely tethered agonist for the Dopamine receptor (MP-D). Our design selectively targets D1R/D5R receptor subtypes, most potently D1R (MP-D1 ago ), as shown in HEK293T cells. In vivo, we targeted dorsal striatal medium spiny neurons where the photo-activation of MP-D1 ago increased movement initiation, although further work is required to assess the effects of MP-D1 ago on neuronal function. Our method combines ligand and cell type-specificity with temporally precise and reversible activation of D1R to control specific aspects of movement. Our results provide a template for analyzing dopamine receptors.

Topics & Concepts

DopamineDopaminergicDopamine receptorNeuroscienceDopamine receptor D1AgonistD1-like receptorReceptorEndogenous agonistHEK 293 cellsMedium spiny neuronD2-like receptorBiologyCell biologyChemistryStriatumBiochemistryPhotochromic and Fluorescence ChemistryReceptor Mechanisms and SignalingPhotoreceptor and optogenetics research
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