Deorphanizing G Protein-Coupled Receptors by a Calcium Mobilization Assay
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G protein-coupled receptors (GPCRs) comprise one of the largest families of transmembrane proteins involved in signal transduction
of diverse external stimuli and represent the most successful target class in drug discovery. The availability of genome sequences
in the postgenomic era has paved the way for in silico identification of novel GPCR family members based upon sequence similarity.
Consequently, newly discovered receptors are by definition orphan GPCRs with no known ligand, and their functional characterization
now poses a major challenge. Over the years, advances in understanding of GPCR biology have led to the development of cell-based
assay systems that link orphan GPCRs to their activating ligand(s) in high-throughput format (reverse pharmacology). Many
of these technologies monitor important steps in the GPCR activation cycle such as the accumulation of secondary messenger
molecules (e.g., cAMP, calcium). In this chapter, we present a calcium mobilization assay in mammalian cells to detect changes
in intracellular calcium concentration upon receptor activation by the use of a fluorescent probe. This is currently one of
the most frequently used assay systems for GPCR deorphanization.