SLAS Discovery (Mar 2024)

Quantitative target engagement of RIPK1 in human whole blood via the cellular thermal shift assay for potential pre-clinical and clinical applications

  • Shitalben Patel,
  • Marie Karlsson,
  • Joseph T. Klahn,
  • Frank Gambino, Jr.,
  • Helena Costa,
  • Kathleen A. McGuire,
  • Christina K. Baumgartner,
  • Jon Williams,
  • Sarah Sandoz,
  • James E. Kath

Journal volume & issue
Vol. 29, no. 2
p. 100135

Abstract

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The cellular thermal shift assay (CETSA®) is a target engagement method widely used for preclinical characterization of small molecule compounds. CETSA® has been used for semi-quantitative readouts in whole blood with PBMC isolation, and quantitative, plate-based readouts using cell lines. However, there has been no quantitative evaluation of CETSA® in unprocessed human whole blood, which is preferred for clinical applications. Here we report two separate assay formats – Alpha CETSA® and MSD CETSA® – that require less than 100 μL of whole blood per sample without PBMC isolation. We chose RIPK1 as a proof-of-concept target and, by measuring engagement of seven different inhibitors, demonstrate high assay sensitivity and robustness. These quantitative CETSA® platforms enable possible applications in preclinical pharmacokinetic-pharmacodynamic studies, and direct target engagement with small molecules in clinical trials.

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