Real-Time Fluorescence Assay:RGS Domain GAP Activit(RMI)

Project Details

Description

EXCEED THE SPACE PROVIDED. Members of the "regulator of G-protein signaling" (RGS)-protein superfamily have emerged as critical modulators of specific G-protein-coupled receptor (GPCR) signal transduction pathways. Via their "GTPase- accelerating protein" (GAP) activity, RGS proteins deactivate heterotrimeric G-protein alpha subunits and thereby reduce GPCR signal transduction. Combining existing GPCR agonists with specific RGS domain inhibitors should potentiate cellular responses to these drugs. The diversity of RGS proteins with highly localized and dynamically regulated distributions in the human brain makes them attractive targets for pharmacotherapy of central nervous system disorders such as Parkinson's disease. Unfortunately, no small molecule inhibitor (or activator) of RGS protein GAP activity is publicly available for study. Therefore, to identify small molecule tools for further advancing knowledge of RGS protein function in specific GPCR signaling pathways, and also to facilitate identification of lead compounds for developing RGS protein- directed therapeutics, we will modify and validate novel, real-time, fluorescence-based assays of RGS protein function for automated high throughput molecular screening: a fluorescence resonance energy transfer (FRET)-based binding assay that employs cyan fluorescent protein-labeled G-alpha subunits and yellow fluorescent protein-labeled RGS proteins, a single-turnover GTP hydrolysis assay using a fluorescent sensor for inorganic phosphate production, and an assay of G-alpha nucleotide binding and hydrolysis that employs the fluor-modified nucleotide BODIPY[unreadable] FL 2'-(or-3')-O-(N-(2-aminoethyl)urethane)guanosine 5'- triphosphate. Many useful drugs act by binding a particular type of protein receptor on the cell's surface: a G-protein coupled receptor. Ourgroup hasdiscovered a new family of proteins - the RGS proteins - that interfere with these receptors. We wish to create ways to screen for new drug compounds that can stop RGS proteins from interfering and thereby allow existing drugs to act more potently. [unreadable]PERFORMANCE SITE ========================================Section End===========================================
StatusFinished
Effective start/end date30/09/0531/08/09

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