Marc N. Potenza

A method for evaluating the effects of ligands upon Gs protein-coupled receptors using a recombinant melanophore-based bioassay

As an increasing number of medically important receptors that couple to stimulatory guanine nucleotide (Gs) proteins are isolated and cloned, there is an equally escalating need for methods to rapidly and reproducibly evaluate potential ligands for their properties as agonists or antagonists. Recently, a bioassay that can quickly and accurately determine the effects of numerous chemicals on a beta 1-like adrenergic receptor (AR) endogenous to melanophores derived from Xenopus laevis was developed. Here, the general utility of the melanophore-based pigment dispersion assay is demonstrated by employing it to evaluate the effects of drugs on a human beta 2 AR. Melanophores were both transiently and stably transfected with a plasmid encoding a beta 2 AR. Stimulation of recombinant cells expressing the beta 2 AR, but not wild-type cells, with beta 2-selective agonists induced pigment dispersion and concomitant elevations in intracellular cAMP. Using a microtiter plate reader, it was straightforward to construct reproducible dose-response curves and rapidly determine rank-order potency and EC50 and IC50 values for agonists and antagonists, respectively. The demonstration of functional expression of a human beta 2 AR in the melanophore-based bioassay suggests that the system may be used for the rapid pharmacological characterization of ligands upon any specific Gs-linked receptor for which a cDNA clone is available.

Characterization of a serotonin receptor endogenous to frog melanophores

The response of a cell line of Xenopus laevis melanophores to serotonin was examined. Serotonin increased intracellular levels of cAMP and induced pigment dispersion in the cells. The responses depended on both the concentration of serotonin applied and on the time for which the cells were exposed to serotonin. Using a recently described, microtiter-plate-based bioassay, a series of serotonin receptor ligands were evaluated as agonists or antagonists at the melanophore serotonin receptor. The pharmacological profile suggests the presence of a receptor which shares some properties with but appears different from other previously described serotonin receptors.

Tools for Investigating Functional Interactions Between Lipid-Derived Autacoids and their Receptors.

A method for rapidly evaluating functional interactions between ligands and G-protein--coupled receptors has been developed. The technology is based on the ability of animals to change color by controlling the position of pigmented organelles within skin cells called melanophores. cDNA coding for a receptor to be studied is expressed in immortalized frog melanophores. Stimulation of a receptor that normally functions to activate either adenyl cyclase or phospholipase C induces centrifugal melanosome translocation and cell darkening. Conversely, application of an agonist to cells expressing a receptor that operates to inhibit adenyl cyclase induces centripetal pigment movement and cell lightening. The simple optical change can be used to investigate ligand-receptor interactions at several levels, including single-cell analysis and high-throughput chemical screening. Current efforts are focused on (1) identifying small peptides that activate or block thromboxane. A(2) and platelet-activating factor (PAF) receptors and (2) cloning eicosanoid receptors.