Gene/Protein
Disease
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Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Drug
Enzyme
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Target Concepts:
Gene/Protein
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Query: UNIPROT:P61278 (
somatostatin
)
22,083
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A detailed analysis of structural and functional aspects of G-protein-coupled receptors, as well as discovery of novel pharmacophores that exert their effects on members of this class of receptors, will be facilitated by development of a yeast-based bioassay. To that end, yeast strains that functionally express the rat somatostatin receptor subtype 2 (SSTR2) were constructed. High-affinity binding sites for
somatostatin
([125I-Tyr-11]S-14) comparable to those in native tissues were detected in yeast membrane extracts at levels equivalent to the alpha-mating
pheromone receptor
(Ste2p).
Somatostatin
-dependent growth of strains modified by deletion of genes encoding components of the pheromone response pathway was detected through induction of a pheromone-responsive HIS3 reporter gene, enabling cells to grow on medium lacking histidine. Dose-dependent growth responses to S-14 and related SSTR2 subtype-selective agonists that were proportional to the affinity of the ligands for SSTR2 were observed. The growth response required SSTR2, G alpha proteins, and an intact signal transduction pathway. The sensitivity of the bioassay was affected by intracellular levels of the G alpha protein. A mutation in the SST2 gene, which confers supersensitivity to pheromone, was found to significantly enhance the growth response to S-14. In sst2 delta cells, SSTR2 functionally interacted with both a chimeric yeast/mammalian G alpha protein and the yeast G alpha protein, Gpa1p; to promote growth. These yeast strains should serve as a useful in vivo reconstitution system for examination of molecular interactions of the G-protein-coupled receptors and G proteins.
...
PMID:Functional coupling of a mammalian somatostatin receptor to the yeast pheromone response pathway. 756 71
Understanding the role of G-protein-coupled receptor (GPCR) dimerization in cellular function has now become a major research focus. The potentially large functional and physiological diversity of dimerization among GPCRs is expected to provide opportunities for novel drug discovery. However, there is currently a lack of cell-based assays capable of specific profiling for the functional consequences of dimerization linked to ligand-mediated signaling. Here, we present an advanced method to simultaneously analyze the dimerization and ligand response of GPCRs using two yeast-based systems for split-ubiquitin two-hybrid assay and G-protein signaling assay. To permit simultaneous detection, we established a two-color (dualcolor) fluorescence reporter gene assay using enhanced green fluorescent protein (EGFP) and a far-red derivative of the tetrameric fluorescent protein DsRed-Express2 (E2-Crimson). In the present study, we tested our method first by analyzing dimerization and ligand-mediated signaling by the yeast endogenous
pheromone receptor
(Ste2p). Second, we showed that the system facilitated mutational analysis of domains involved in dimerization and signaling by Ste2p. Third, we successfully demonstrated that the system could simultaneously monitor homo- and hetero-dimerization and
somatostatin
-induced signaling in the test case of the human SSTR5 somatostatin receptor. Our strategy is expected to provide a useful tool for the elucidation of molecular biological functions of GPCR dimers and for the screening of GPCR dimer-specific agonistic ligands.
...
PMID:Simultaneous method for analyzing dimerization and signaling of G-protein-coupled receptor in yeast by dual-color reporter system. 2412 88
