International Union of Basic and Clinical Pharmacology. Recommendations for GPCR ligand bias

Two-thirds of human hormones and one-third of clinical drugs act on membrane receptors that couple to G proteins to achieve appropriate functional responses. While G protein transducers from literature are annotated in the Guide to Pharmacology database, two recent large-scale datasets now expand the receptor-G protein couplome. However, these three datasets differ in scope and reported G protein couplings giving different coverage and conclusions on GPCR-G protein signaling. Here, we report a meta-analysis unifying GPCR-G protein coupling, by standardized normalization and consensus support, into a common coupling map. This unravels novel consensus couplings for receptors supported by two independent sources and insights on coupling selectivity of GPCRs and classification of co-coupling G proteins. The coupling protocol, map and selectivity resources will promote advances in receptor research and cellular signaling towards the exploitation of G protein signaling specificity in design of safer drugs.

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Common coupling map advances GPCR-G protein selectivity

Hauser

Avet

Normand³

et al. 2021

Preprint

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In vitro assays for the functional characterization of (psychedelic) substances at the serotonin receptor 5‐HT_2AR

Pottie

Stove

2022

Journal of Neurochemistry

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Serotonergic psychedelics are substances that induce alterations in mood, perception, and thought, and have the activation of serotonin (5‐HT) 2A receptors (5‐HT2ARs) as a main pharmacological mechanism. Besides their appearance on the (illicit) drug market, e.g. as new psychoactive substances, their potential therapeutic application is increasingly explored. This group of substances demonstrates a broad structural variety, leading to insufficiently described structure‐activity relationships, hence illustrating the need for better functional characterization. This review therefore elaborates on the in vitro molecular techniques that have been used the most abundantly for the characterization of (psychedelic) 5‐HT2AR agonists. More specifically, this review covers assays to monitor the canonical G protein signaling pathway (e.g. measuring G protein recruitment/activation, inositol phosphate accumulation, or Ca2+ mobilization), assays to monitor non‐canonical G protein signaling (such as arachidonic acid release), assays to monitor β‐arrestin recruitment or signaling, and assays to monitor receptor conformational changes. In particular, focus lies on the mechanism behind the techniques, and the specific advantages and challenges that are associated with these. Additionally, several variables are discussed that one should consider when attempting to compare functional outcomes from different studies, both linked to the specific assay mechanism and linked to its specific execution, as these may heavily impact the assay outcome.

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International Union of Basic and Clinical Pharmacology. Recommendations for GPCR ligand bias

Cited by 2 publications

References 89 publications

Common coupling map advances GPCR-G protein selectivity

Common coupling map advances GPCR-G protein selectivity

In vitro assays for the functional characterization of (psychedelic) substances at the serotonin receptor 5‐HT_2AR

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International Union of Basic and Clinical Pharmacology. Recommendations for GPCR ligand bias

Cited by 2 publications

References 89 publications

Common coupling map advances GPCR-G protein selectivity

Common coupling map advances GPCR-G protein selectivity

In vitro assays for the functional characterization of (psychedelic) substances at the serotonin receptor 5‐HT2AR

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Product

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In vitro assays for the functional characterization of (psychedelic) substances at the serotonin receptor 5‐HT_2AR