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1.  High throughput identification of promiscuous inhibitors from screening libraries with the use of a thiol-containing fluorescent probe 
Journal of biomolecular screening  2013;18(6):705-713.
Testing small molecules for their ability to modify cysteine residues of proteins in the early stages of drug discovery is expected to accelerate our ability to develop more selective drugs with lesser side effects. In addition, this approach also enables the rapid evaluation of the mode of binding of new drug candidates in respect to thiol-reactivity and metabolism by glutathione. Herein, we describe the development of a fluorescence-based high throughput assay that allows the identification of thiol-reactive compounds. A thiol-containing fluorescent probe MSTI was synthesized and used to evaluate small molecules from the LOPAC collection of bioactive molecules. LOPAC compounds that are known to react with sulfur nucleophiles were identified with this assay, for example, irreversible protease inhibitors, nitric oxide releasing compounds, and proton-pump inhibitors. The results confirm that both electrophilic and redox reactive compounds can be quickly identified in a high throughput manner enabling the assessment of screening libraries in respect to thiol-reactive compounds.
PMCID: PMC3692575  PMID: 23446699
Promiscuous inhibitors; glutathione; fluorescence; high throughput screening; thiol-reactive or electrophilic compound
2.  A Quantitative High Throughput Screen Identifies Novel Inhibitors of the Interaction of Thyroid Receptor β with a Peptide of Steroid Receptor Coactivator 2 
Journal of biomolecular screening  2011;16(6):618-627.
The thyroid hormone receptors (TR) are members of the nuclear hormone receptor (NHR) superfamily that regulate development, growth, and metabolism. Upon ligand binding, TR releases bound corepressors and recruits coactivators to modulate target gene expression. Steroid Receptor Coactivator 2 (SRC2) is an important coregulator that interacts with TRβ to activate gene transcription. To identify novel inhibitors of the TRβ and SRC2 interaction, we performed a quantitative high throughput screen (qHTS) of a TRβ-SRC2 fluorescence polarization assay against more than 290,000 small molecules. The qHTS assayed compounds at six concentrations up to 92 uM to generate titration-response curves and determine the potency and efficacy of all compounds. The qHTS dataset enabled the characterization of actives for structure-activity relationships as well as for potential artifacts such as fluorescence interference. Selected qHTS actives were tested in the screening assay using fluoroprobes labeled with Texas Red or fluorescein. The retest identified 19 series and 4 singletons as active in both assays with 40% or greater efficacy, free of compound interference and not toxic to mammalian cells. Selected compounds were tested as independent samples and a methylsulfonylnitrobenzoate series inhibited the TRβ-SRC2 interaction with 5 uM IC50. This series represents a new class of thyroid hormone receptor-coactivator modulators.
PMCID: PMC3162318  PMID: 21482722
thyroid receptor; small molecule; HTS; coactivator; protein-protein interaction
3.  A High-Throughput Ligand Competition Binding Assay for the Androgen Receptor and other Nuclear Receptors 
Standardized, automated ligand binding assays facilitate evaluation of endocrine activities of environmental chemicals and identification of antagonists of nuclear receptor ligands. Many current assays rely on fluorescently labeled ligands which are significantly different from the native ligands. We describe a radiolabeled ligand competition scintillation proximity assay (SPA) for the androgen receptor (AR) using Ni-coated 384-well FlashPlates® and liganded AR-LBD protein. This highly reproducible, low cost assay is well-suited for automated HTS. Additionally, we show that this assay can be adapted to measure ligand affinities for other nuclear receptors (peroxisome proliferation activated receptor γ, thyroid receptors α and β).
PMCID: PMC2632761  PMID: 19171919
Scintillation Proximity Assay; androgen receptor; high-throughput screening; endocrine disrupting chemicals; nuclear receptors

Results 1-3 (3)