Assessing Gαq/15-signaling with IP-One: Single Plate Transfection and Assay Protocol for Cell-Based High-Throughput Assay

Cell-based functional assays are an important part of compound screening and drug lead optimization, and they can also play a crucial role in the determination of the residues involved in ligand binding and signaling for a particular G-protein-coupled receptor. Conventional methods used for Gαq/15-coupled receptors rely on the use of fluorescent probes for Ca++ sensing (such as Fura-2 and Fluo-4) or on the incorporation of [3H]-inositol into inositol 1,4,5- triphosphate (IP3). However, these methods are not suitable for screening large libraries of compounds or for screening several mutants of the same receptor. In contrast, the IP-One assay by Cisbio is a TR-FRET assay suitable for large compound library screening when using stable cell lines that express a specific 7TMR. However, when using transiently transfected mutants of a 7TMR, this assay is not ideal, as it requires a two-step protocol of cell culture. Therefore, we have optimized the IP-One assay protocol using the reverse transfection method in 384-well plates. This offers a time- and resource-efficient alternative to the two-step protocol previously used for the screening of several mutants of Gαq/15-coupled 7TMRs.