High-throughput real-time monitoring of G(s)-coupled receptor activation in intact cells using cyclic nucleotide-gated channels

Abstract

Cyclic adenosine-monophosphate (cAMP) is one of the major second messenger molecules transmitting extracellular stimuli into short-and long-term changes of intracellular homeostasis. Measurements of cellular cAMP levels are often used to quantify and characterize signaling by G protein-coupled receptors. Current assays for cAMP determination are usually end-point assays involving cell lysis. We have developed a technology to monitor real-time changes of cAMP levels in living cells. This method uses a modified cyclic nucleotide-gated (CNG) Ca2+ channel which is opened by intracellular cAMP. Thus, changes in cAMP levels are translated into changes in free Ca2+ which can easily be measured using fluorimetric imaging technologies compatible with high-throughput screening formats. The new assay method was used to characterize the pharmacology of various enclogenously and heterologously expressed G protein-coupled receptors and allows for the simultaneous study of G(s), G(i) and G(q)-linked receptors in the same cell population. (C) 2003 Published by Elsevier B.V.