The expansion of kinase assay technologies over the past decade has mirrored the growing interest in kinases as drug targets. As a result, there is no shortage of convenient, fluorescence-based methods available to assay targets that span the kinome. The authors recently reported on the development of a non-activity-based assay to characterize kinase inhibitors that depended on displacement of an Alexa Fluor 647 conjugate of staurosporine (a "tracer") from a particular kinase. Kinase inhibitors were characterized by a change in fluorescence lifetime of the tracer when it was bound to a kinase relative to when it was displaced by an inhibitor. Here, the authors report on improvements to this strategy by reconfiguring the assay in a time-resolved fluorescence resonance energy transfer (TR-FRET) format that simplifies instrumentation requirements and allows for the use of a substantially lower concentration of kinase than was required in the fluorescence-lifetime-based format. The authors use this new assay to demonstrate several aspects of the binding assay format that are advantageous relative to traditional activity-based assays. The TR-FRET binding format facilitates the assay of compounds against lowactivity kinases, allows for the characterization of type II kinase inhibitors either using nonactivated kinases or by monitoring compound potency over time, and ensures that the signal being detected is specific to the kinase of interest and not a contaminating kinase. (Journal of Biomolecular Screening 2009:924-935)
The human pregnane X nuclear receptor (PXR) is a xenobioticregulated receptor that is activated by a range of diverse chemicals, including antibiotics, antifungals, glucocorticoids, and
Highly miniaturized P450 screening assays designed to enable facile analysis of P450 drug interactions in a 1536-well plate format with the principal human cytochrome P450 enzymes (CYP3A4, 2D6, 2C9, 2C19, and 1A2) and Vivid ® fluorogenic substrates were developed. The detailed characterization of the assays included stability, homogeneity, and reproducibility of the recombinant P450 enzymes and the kinetic parameters of their reactions with Vivid ® fluorogenic substrates, with a focus on the specific characteristics of each component that enable screening in a low-volume 1536-well plate assay format. The screening assays were applied for the assessment of individual cytochrome P450 inhibition profiles with a panel of selected assay modifiers, including isozyme-specific substrates and inhibitors. IC 50 values obtained for the modifiers in 96-and 1536-well plate formats were similar and comparable with values obtained in assays with conventional substrates. An overall examination of the 1536-well assay statistics, such as signal-to-background ratio and Z′ factor, demonstrated that these assays are a robust, successful, and reliable tool to screen for cytochrome P450 metabolism and inhibition in an ultra-high-throughput screening format. (Journal of Biomolecular Screening 2005:56-66)
The life-threatening consequences of acquired, or drug-induced, long QT syndrome due to block of the human ether-a-go-go-related gene (hERG) channel are well appreciated and have been the cause of several drugs being removed from the market in recent years because of patient death. In the last decade, the propensity for block of the hERG channel by a diverse and expanding set of compounds has led to the requirement that all new drugs be tested for hERG channel block in a functional patch-clamp assay. Because of the need to identify potential hERG blockers early in the discovery process, radiometric hERG binding assays are preferred over patch-clamp assays for compound triage, because of relative advantages in speed and cost. Even so, these radiometric binding assays are laborious and require dedicated instrumentation and infrastructure to cope with the regulatory and safety issues associated with the use of radiation. To overcome these limitations, we developed a homogeneous, fluorescence polarization-based assay to identify and characterize the affinity of small molecules for the hERG channel and have demonstrated tight correlation with data obtained from either radioligand binding or patch-clamp assays. Key to the development of this assay was a cell line that expressed highly elevated levels of hERG protein, which was generated by coupling expression of the hERG channel to that of a selectable cell surface marker. A high-expressing clone was isolated by flow cytometry and used to generate membrane preparations that contained >50-fold the typical density of hERG channels measured by [(3)H]astemizole binding. This strategy enabled the Predictor (Invitrogen, Carlsbad, CA) hERG fluorescence polarization assay and should be useful in the development of other fluorescence polarization-based assays that use membrane proteins.
The interactions of the ligand binding domain (LBD) of androgen receptor (AR) and the AR T877A mutant, found in prostate cancer, with peptides from coactivator and corepressor proteins or random phage display peptides were investigated using in vitro time-resolved fluorescence resonance energy transfer (TR-FRET). Interaction of wild-type AR LBD with the random phage display peptide D11FxxLF was observed with dihydrotestosterone (DHT), testosterone, R1881, estradiol, spironolactone, progesterone, and cortisol resulting in distinct dose dependency (EC50) values for each ligand and correlating well with the reported rank order potency of these agonists. Increasing concentrations of cyproterone acetate and mifepristone resulted in more complete disruption of the DHT-mediated AR-D11FxxLF peptide interaction, while flutamide, hydroxyflutamide, and bicalutamide caused only partial disruption of the complex. The mutant AR T877A LBD exhibited increased binding affinities for all ligands tested except for bicalutamide, mifepristone, DHT, and R1881 in a competitive binding assay as compared to wild-type AR LBD. This mutation was also characterized by increased ligand potency for agonist-induced peptide recruitment. Although usually an antagonist, hydroxyflutamide was more potent in the recruitment of D11FxxLF or an SRC3-1 LXXLL motif to AR T877A LBD than AR LBD. The antagonist cyproterone acetate behaved as a full antagonist of D11FxxLF recruitment to AR LBD and AR T877A LBD but as a more potent agonist in the recruitment of SRC3-1 to AR T877A LBD. These results suggest that the AR T877A mutation affects both ligand affinity and ligand dose dependency for peptide recruitment and may explain in part the altered responses of antagonists and increased transcriptional activation reported in androgen-independent prostate cancers.
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