Your search keyword '"Terry D. Foutz"' showing total 2 results

1. Discovery of regulators of receptor internalization with high-throughput flow cytometry

Author

Gregory W. Fisher, Peter C. Simons, Phillip H. Tapia, Alan S. Waggoner, Larry A. Sklar, Yang Wu, Terry D. Foutz, Jonathan W. Jarvik, and J. Jacob Strouse

Subjects

Time Factors, Recombinant Fusion Proteins, Green Fluorescent Proteins, Biology, Ligands, Transfection, Binding, Competitive, Chemical library, Flow cytometry, Receptors, G-Protein-Coupled, Small Molecule Libraries, chemistry.chemical_compound, Adrenergic beta-2 Receptor Antagonists, medicine, Humans, Receptor, Protein kinase A, Adrenergic beta-2 Receptor Agonists, Pharmacology, medicine.diagnostic_test, Drug discovery, U937 Cells, Flow Cytometry, Transport protein, Cell biology, High-Throughput Screening Assays, Protein Transport, chemistry, FOS: Biological sciences, Molecular Medicine, Receptors, Adrenergic, beta-2, Signal transduction, 69999 Biological Sciences not elsewhere classified

Abstract

We developed a platform combining fluorogen-activating protein (FAP) technology with high-throughput flow cytometry to detect real-time protein trafficking to and from the plasma membrane in living cells. The hybrid platform facilitates drug discovery for trafficking receptors such as G protein-coupled receptors and was validated with the β₂-adrenergic receptor (β₂AR) system. When a chemical library containing ∼1200 off-patent drugs was screened against cells expressing FAP-tagged β₂ARs, all 33 known β₂AR-active ligands in the library were successfully identified, together with a number of compounds that might regulate receptor internalization in a nontraditional manner. Results indicated that the platform identified ligands of target proteins regardless of the associated signaling pathway; therefore, this approach presents opportunities to search for biased receptor modulators and is suitable for screening of multiplexed targets for improved efficiency. The results revealed that ligands may be biased with respect to the rate or duration of receptor internalization and that receptor internalization may be independent of activation of the mitogen-activated protein kinase pathway.

Published

2012

2. Ligand-receptor-G-protein molecular assemblies on beads for mechanistic studies and screening by flow cytometry

Author

William E. McIntire, Mei Shi, Terry D. Foutz, Jeremy Lewis, Peter C. Simons, Daniel F. Cimino, James C. Garrison, Eric R. Prossnitz, Tione Buranda, Larry A. Sklar, William K. Lim, and Richard R. Neubig

Subjects

Pharmacology, Chromatography, Chemistry, Ligand, G protein, Flow Cytometry, Ligands, Fusion protein, Microspheres, Green fluorescent protein, Kinetics, Solubility, GTP-Binding Proteins, Biotinylation, Biophysics, Tumor Cells, Cultured, Molecular Medicine, Humans, Ternary operation, Ternary complex, G protein-coupled receptor

Abstract

G protein-coupled receptors form a ternary complex of ligand, receptor, and G protein heterotrimer (LRG) during signal transduction from the outside to the inside of a cell. Our goal was to develop a homogeneous, small-volume, bead-based approach compatible with high-throughput flow cytometry that would allow evaluation of G protein coupled receptor molecular assemblies. Dextran beads were derivatized to carry chelated nickel to bind hexahistidine-tagged green fluorescent protein (GFP) and hexahistidine-tagged G proteins. Ternary complexes were assembled on these beads using fluorescent ligand with wild-type receptor or a receptor-Gialpha2 fusion protein, and with a nonfluorescent ligand and receptor-GFP fusion protein. Streptavidin-coated polystyrene beads used biotinylated anti-FLAG antibodies to bind FLAG-tagged G proteins for ternary complex assembly. Validation was achieved by showing time and concentration dependence of ternary complex formation. Affinity measurements of ligand for receptor on particles, of the ligand-receptor complex for G protein on the particles, and receptor-Gialpha2 fusion protein for Gbetagamma, were consistent with comparable assemblies in detergent suspension. Performance was assessed in applications representing the potential of these assemblies for ternary complex mechanisms. We showed the relationship for a family of ligands between LR and LRG affinity and characterized the affinity of both the wild-type and GFP fusion receptors with G protein. We also showed the potential of kinetic measurements to allow observation of individual steps of GTP-induced ternary complex disassembly and discriminated a fast step caused by RG disassembly compared with the slower step of Galphabetagamma disassembly.

Published

2003