PLoS ONE (Jan 2012)

High-throughput 1,536-well fluorescence polarization assays for α(1)-acid glycoprotein and human serum albumin binding.

  • Adam Yasgar,
  • Silviya D Furdas,
  • David J Maloney,
  • Ajit Jadhav,
  • Manfred Jung,
  • Anton Simeonov

DOI
https://doi.org/10.1371/journal.pone.0045594
Journal volume & issue
Vol. 7, no. 9
p. e45594

Abstract

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Two major plasma proteins in humans are primarily responsible for drug binding, the α(1)-acid-glycoprotein (AGP) and human serum albumin (HSA). The availability of at least a semiquantitative high-throughput assay for assessment of protein binding is expected to aid in bridging the current gap between high-throughput screening and early lead discovery, where cell-based and biochemical assays are deployed routinely to test up to several million compounds rapidly, as opposed to the late-stage candidate drug profiling methods which test at most dozens of compounds at a time. Here, we describe the miniaturization of a pair of assays based on the binding- and displacement-induced changes in fluorescence polarization (FP) of fluorescent small molecule probes known to specifically target the drug-binding sites of these two proteins. A robust and reproducible assay performance was achieved in ≤4 µL assay volume in 1,536-well format. The assays were tested against a validation set of 10 known protein binders, and the results compared favorably with data obtained using protein-coated beads with high-performance liquid chromatography analysis. The miniaturized assays were taken to a high-throughput level in a screen of the LOPAC(1280) collection of 1,280 pharmacologically active compounds. The adaptation of the AGP and HSA FP assays to a 1,536-well format should allow their use in early-stage profiling of large-size compound sets.