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Title: Identification of non-peptidic neuromedin U receptor modulators by a robust homogeneous screening assay. Author: Meng T, Su HR, Binkert C, Fischli W, Zhou L, Shen JK, Wang MW. Journal: Acta Pharmacol Sin; 2008 Apr; 29(4):517-27. PubMed ID: 18358099. Abstract: AIM: To develop a homogeneous binding assay for high-throughput screening (HTS) of hit compounds at human neuromedin U receptor (hNMU-R) 1 and to identify non-peptidic small molecule hNMU-R modulators through functional assessments and structure-activity relationship (SAR) analyses. METHODS: Membrane preparations of Chinese hamster ovary cells (CHO-K1) stably expressing hNMU-R1, [125I]hNMU-25, and wheat germ agglutinin-coupled microbeads were used to develop an HTS assay based on scintillation proximity assay (SPA) technology. This method was applied to a large-scale screening campaign against a diverse library of 36,000 synthetic compounds or natural products and subsequent confirmation studies. CHO-K1 cells stably expressing full-length hNMU-R1 or hNMU-R2 and a calcium-sensitive dye were employed to functionally measure intracellular calcium mobilization upon ligand stimulation. Preliminary SAR was determined based on limited structural modifications. RESULTS: The Ki value (0.7 nmol/L) of hNMU-25 (the natural ligand) at hNMU-R1 measured by the SPA method was consistent with that reported in the literature, and the Z'factor for this HTS assay was 0.81. A total of 100 hits, showing more than 30% competitive inhibition on [125I]hNMU-25 binding to hNMU-R1, were identified initially, 3 of which were confirmed thereafter to have reasonable hNMU-R1-binding affinities and similar chemical structures. Based on their common molecular skeleton, 203 analogs were synthesized and tested. Among the 16 analogs that retained variable hNMU-R1- binding abilities, 2 elicited calcium influx in both hNMU-R1 and hNMU-R2-expressing cells, but none displayed antagonist activity. CONCLUSION: The homogeneous hNMU-R1 binding assay is an efficient and robust tool for screening potential hNMU-R modulators. Two non-selective hNMU-R agonists discovered are of low molecular weight nature with novel chemical structures. The preliminary SAR investigation suggests that both the triphenyl and guanidinol groups are crucial to the bioactivities observed.[Abstract] [Full Text] [Related] [New Search]