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Chemical genetics reveals an RGS/G-protein role in the action of a compound |
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| Authors: | Fitzgerald Kevin Tertyshnikova Svetlana Moore Lisa Bjerke Lynn Burley Ben Cao Jian Carroll Pamela Choy Robert Doberstein Steve Dubaquie Yves Franke Yvonne Kopczynski Jenny Korswagen Hendrik Krystek Stanley R Lodge Nicholas J Plasterk Ronald Starrett John Stouch Terry Thalody George Wayne Honey van der Linden Alexander Zhang Yongmei Walker Stephen G Cockett Mark Wardwell-Swanson Judi Ross-Macdonald Petra Kindt Rachel M |
| Affiliation: | Bristol-Myers Squibb Pharmaceutical Research Institute, Pennington, New Jersey, United States of America. |
| Abstract: | We report here on a chemical genetic screen designed to address the mechanism of action of a small molecule. Small molecules that were active in models of urinary incontinence were tested on the nematode Caenorhabditis elegans, and the resulting phenotypes were used as readouts in a genetic screen to identify possible molecular targets. The mutations giving resistance to compound were found to affect members of the RGS protein/G-protein complex. Studies in mammalian systems confirmed that the small molecules inhibit muscarinic G-protein coupled receptor (GPCR) signaling involving G-αq (G-protein alpha subunit). Our studies suggest that the small molecules act at the level of the RGS/G-αq signaling complex, and define new mutations in both RGS and G-αq, including a unique hypo-adapation allele of G-αq. These findings suggest that therapeutics targeted to downstream components of GPCR signaling may be effective for treatment of diseases involving inappropriate receptor activation. |
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