Analysis of the primary protein structure of the human serotonin1B (5-HT1B) receptor reveals consensus sites for phosphorylation and a putative site for palmitoylation. To investigate these posttranslational modifications, we have expressed a c-myc epitope-tagged 5-HT1B (m5-HT1B) receptor in Sf9 cells. This strategy enabled receptors to be detected by immunoblot analysis and purified by immunoprecipitation using a monoclonal antibody, 9E10, specific for the c-myc epitope. Agonist radioligand [3H]5-HT binding studies showed that the expressed 5-HT1B and m5-HT1B receptors displayed the characteristic pharmacological profile of the neuronal 5-HT1B receptor. The expressed receptors displayed both high- and low-affinity states for [3H]5-HT, suggesting that the receptors were coupled to endogenous G-proteins. Indeed, agonist binding to the high-affinity receptor state was regulated in the presence of GTP gamma S, Gpp(NH)p, and pertussis toxin. [32P]ADP-ribosylation experiments identified a major approximately 41-kDa ADP-ribosylated protein present in Sf9 membranes that comigrated with partially purified bovine brain Gi alpha/G(o) alpha subunits. Measurements of adenylyl cyclase activity in membranes from cells expressing m5-HT1B receptors showed that serotonergic agonists mediated the inhibition of adenylyl cyclase activity with a rank order of potency comparable to their affinity constants. Immunoblot analysis of membranes prepared from cells expressing m5-HT1B receptors and photoaffinity labeling of the immunoprecipitated material revealed photolabeled species at approximately 95 and at approximately 42 kDa.(ABSTRACT TRUNCATED AT 250 WORDS)
In BRET2 (Bioluminescence Resonance Energy Transfer), a Renilla luciferase (RLuc) is used as the donor protein, while a Green Fluorescent Protein (GFP2) is used as the acceptor protein. In the presence of the cell permeable substrate DeepBlueC, RLuc emits blue light at 395 nm. If the GFP2 is brought into close proximity to RLuc via a specific biomolecular interaction, the GFP2 will absorb the blue light energy and reemit green light at 510nm. BRET2 signals are therefore easily determined by measuring the ratio of green over blue light (510/395nm) using appropriate dual channel luminometry instruments (e.g., Fusion Universal Microplate Analyzer, Packard BioScience). Since no light source is required for BRET2 assays, the technology does not suffer from high fluorescent background or photobleaching, the common problems associated with standard FRET-based assays. Using BRET2, we developed a generic G Protein-Coupled Receptor (GPCR) assay based on the observation that activation of the majority of GPCRs by agonists leads to the interaction of beta-arrestin (a protein that is involved in receptor desensitization and sequestration) with the receptor. We established a cell line stably expressing the GFP2:beta-arrestin 2 fusion protein, and showed that it can be used to monitor the activation of various transiently expressed GPCRs, in BRET2/arrestin assays. In addition, using the HEK 293/GFP2:beta-arrestin 2 cell line as a recipient, we generated a double-stable line co-expressing the vasopressin 2 receptor (V2R) fused to RLuc (V2R:RLuc) and used it for the pharmacological characterization of compounds in BRET2/arrestin assays. This approach yields genuine pharmacology and supports the BRET2/arrestin assay as a tool that can be used with recombinant cell lines to characterize ligand-GPCR interactions which can be applied to ligand identification for orphan receptors.
advertising feature an8 | December 2008 | nature methods application notes cell Biology biotinylated antibody bound to streptavidin-coated donor beads and a second antibody conjugated to AlphaLISA acceptor beads. The binding of the two antibodies to the analyte brings donor and acceptor beads into proximity. Laser irradiation of donor beads at 680 nm generates a flow of singlet oxygen, triggering a cascade of chemical events in nearby acceptor beads, which results in a chemiluminescent emission at 615 nm. In competitive AlphaLISA immunoassays, a biotinylated analyte bound to streptavidin donor beads is used with an antibody conjugated to AlphaLISA acceptor beads. Rapid and simple quantification of analytesAlphaLISA assays are performed following simple 'mix-and-measure' protocols with reduced hands-on and total assay times compared to ELISAs (Fig. 2). Homogeneous AlphaLISA assays eliminate the need for multiple washes to separate bound from unbound assay components. Miniaturization and automationMiniaturization is a key consideration for reducing screening cost and increasing throughput during the drug-discovery process.AlphaLISA assays are truly miniaturizable and automatable, with ELISA is the most widely used detection platform for the quantification of analytes in biological samples. Because they require multiple washes, ELISAs are difficult to adapt to high throughput and automation. Their relatively narrow dynamic range often requires testing more than one sample dilution. There is clearly a need for simple and more robust alternatives for the quantification of biomarkers in a high-throughput screening format. The new AlphaLISA platform has been specifically designed for that purpose for both the research and drug-discovery fields.The AlphaLISA bead-based technology relies on PerkinElmer's exclusive amplified luminescent proximity homogeneous assay (AlphaScreen ® ) and uses a luminescent oxygen-channeling chemistry 1 . AlphaLISA protocols can be set up as sandwich or competition immunoassays. In a sandwich assay (Fig. 1), an analyte is captured by a AlphaLISA immunoassays: the no-wash alternative to ELISAs for research and drug discovery PerkinElmer's bead-based AlphaLISA® immunoassays are designed for the detection of analytes in biological samples. These chemiluminescent, no-wash assays are ideally suited for miniaturization and automation. They exhibit remarkable sensitivity, wide dynamic range and robust performance that compares advantageously with conventional enzyme-linked immunosorbent assay (ELISA).
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