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G protein-coupled receptor (GPCR) pharmacogenomics

doi: 10.1080/10408363.2024.2358304.

Miles D Thompson 1, David Reiner-Link 2, Alessandro Berghella 2, Brinda K Rana 3, G Enrico Rovati 4, Valerie Capra 4, Caroline M Gorvin 5, Alexander S Hauser 2

1: Krembil Brain Institute, Toronto Western Hospital, Toronto, Ontario, Canada.
2: Department of Drug Design and Pharmacology, Faculty of Health and Medical Sciences, University of Copenhagen, Copenhagen, Denmark.
3: Department of Psychiatry, University of California San Diego, San Diego, CA, USA.
4: Department of Pharmacological and Biomolecular Sciences, Università degli Studi di Milano, Milan, Italy.
5: Institute of Metabolism and Systems Research (IMSR), University of Birmingham, Birmingham, United Kingdom.

Abstract:

The field of pharmacogenetics, the investigation of the influence of one or more sequence variants on drug response phenotypes, is a special case of pharmacogenomics, a discipline that takes a genome-wide approach. Massively parallel, next generation sequencing (NGS), has allowed pharmacogenetics to be subsumed by pharmacogenomics with respect to the identification of variants associated with responders and non-responders, optimal drug response, and adverse drug reactions. A plethora of rare and common naturally-occurring GPCR variants must be considered in the context of signals from across the genome. Many fundamentals of pharmacogenetics were established for G protein-coupled receptor (GPCR) genes because they are primary targets for a large number of therapeutic drugs. Functional studies, demonstrating likely-pathogenic and pathogenic GPCR variants, have been integral to establishing models used for in silico analysis. Variants in GPCR genes include both coding and non-coding single nucleotide variants and insertion or deletions (indels) that affect cell surface expression (trafficking, dimerization, and desensitization/downregulation), ligand binding and G protein coupling, and variants that result in alternate splicing encoding isoforms/variable expression. As the breadth of data on the GPCR genome increases, we may expect an increase in the use of drug labels that note variants that significantly impact the clinical use of GPCR-targeting agents. We discuss the implications of GPCR pharmacogenomic data derived from the genomes available from individuals who have been well-phenotyped for receptor structure and function and receptor-ligand interactions, and the potential benefits to patients of optimized drug selection. Examples discussed include the renin-angiotensin system in SARS-CoV-2 (COVID-19) infection, the probable role of chemokine receptors in the cytokine storm, and potential protease activating receptor (PAR) interventions. Resources dedicated to GPCRs, including publicly available computational tools, are also discussed.

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