G-protein-coupled receptors (GPCRs) activate heterotrimeric G-proteins (G(i)-, G(s)-, G(q)-, or G(12)-like) to generate specific intracellular responses, depending on the receptor/G-protein coupling. The aim was to enable a majority of GPCRs to generate a predetermined output by signaling through a single G-protein-supported pathway. The authors focused on calcium responses as the output, then engineered Galpha(q) to promote promiscuous receptor interactions. Starting with a human Galpha(q) containing 5 Galpha(z) residues in the C-terminal receptor recognition domain (hGalpha(q/z5)), they evaluated agonist-stimulated calcium responses for 33 diverse GPCRs (G(i)-, G(s)-, and G(q)-coupled) and found 20 of 33 responders. In parallel, they tested Caenorhabditis elegans Galpha(q) containing 5 or 9 C-terminal Galpha(z) residues (cGalpha(q/z5), cGalpha(q/z9)). Signal detection was enhanced with cGalpha(q/z5) and cGalpha(q/z9) (yielding 25/33 and 26/33 responders, respectively). In a separate study of Galpha(s)-coupled receptors, the authors compared hGalpha(q/s5) versus hGalpha(q/s9), cGalpha(q/s9), andcGalphaq/s21 and observed optimal function with cGalpha(q/s9). Cotransfection of an engineered Galpha(q) "cocktail" (cGalpha(q/z5) plus cGalpha(q/s9)) provided a powerful and efficient screening platform. When the chimeras included N-terminal myristoylation sites (to promote membrane localization), calcium responses were sustained or improved, depending on the receptor. This approach toward a "universal functional assay" is particularly useful for orphan GPCRs whose signaling pathways are unknown.
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