port the identification of four new scaffolds of GPR139 antagonists following high-throughput screening of 16 000 synthetic compounds using a calcium mobilization assay. Acta Pharmacologica Sinica npg 876 www.nature.com/aps Wang J et al SignaltestSignalNC Inhibition%=100% PC NC PC indicates the average of cells in positive control wells, and NC indicates the average of cells in negative control wells. The GPR139 agonist compound 1 was employed to screen antagonists of GPR139. A total of 16 000 compounds with diverse structures were screened at 10 mol/L in the presence of 100 nmol/L of compound 1 using a calcium mobilization assay. The Z’ of the screening assay was 0.74 with an S/B ratio of 22 and a coefficient of variation value of 5.0%. These parameters suggest that the assay system is of high quality and is suitable for HTS. The scatter plots of HTS are shown in Results They represent 4 different structural scaffolds; NCRW0001C02 and NCRW0005-F05 share the same core and their IC50 values are similar. The other 3 confirmed hits, namely NCRW0008-C04, NCRW0095F03, and NCRW0105-E06, showed variable antagonist activities with IC50 values ranging from 0.4 to 2.1 mol/L. www.chinaphar.com Wang J et al npg 877 NCRW0005-F05 C16H13NO2F2 289.28 0.210.01 NCRW0008-C04 C14H9N3F3Cl 311.69 2.10.34 NCRW0095-F03 C13H7NS2 241.33 0.830.15 NCRW0105-E06 C16H8O3F3Cl 340.68 0.430.17 GPR139 was identified by searching the genomic database and has characteristics of the rhodopsin family of GPCRs. It is abundantly expressed in distinct regions of the brain, both in humans and in mice. In the caudate putamen, habenular nucleus, zona incerta and medial mammillary nucleus, the expression of GPR139 is higher than PubMed ID:http://www.ncbi.nlm.nih.gov/pubmed/19809023 that in the thalamus, amygdala and spinal cord, which suggests a significant role of GPR139 in the CNS. GPR139 was first reported as a Gq-coupled receptor. Matsuo et al overexpressed GPR139 in 293-EBNA cells and found that it was capable of activating serum response factor mediated transcription. Additionally, this reaction could be inhibited by a Gq/11 selective inhibitor. This observation was confirmed through the discovery of a series of GPR139 agonists using calcium mobilization assays. Susens et al identified the signal transduction pathway using both Ca2+ mobilization and luciferase-reporter-gene assays. They proposed that GPR139 was coupled to an inhibitory G-protein and mediated by phospholipase C. However, Hu et al identified GPR139 as a Gs-coupled receptor because overexpressed GPR139 in HEK239 cells could increase basal intracellular cAMP con- Discussion centrations. Previous studies have shown that Gq-coupling is the main signaling pathway of GPR139 and might activate other pathways. Furthermore, it was noted that GPR139 appears to be a monomer in HEK-293 cells and a dimer in CHO-K1 cells. In this study, we described an HTS assay to screen antagonists to GPR139 based on intracellular calcium influx and identified a series of small (-)-Blebbistatin molecule hits that blocked the activity of GPR139 induced by compound 1. All of the compounds showed reasonable potencies, of which two compounds possessed the same core region consisting of 3,3-difluoro4-phenylazetidin-2-one. A preliminary structure-activity study suggested that substitution of electron-donating groups on the phenyl group was beneficial for antagonistic effects. These compounds showed little similarity to the structures of antagonists previously reported. Our findings thus offer novel structures and p

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