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  • Identifying drug targets in tissues and whole blood with thermal-shift profiling.

Identifying drug targets in tissues and whole blood with thermal-shift profiling.

Nature biotechnology (2020-01-22)
Jessica Perrin, Thilo Werner, Nils Kurzawa, Anna Rutkowska, Dorothee D Childs, Mathias Kalxdorf, Daniel Poeckel, Eugenia Stonehouse, Katrin Strohmer, Bianca Heller, Douglas W Thomson, Jana Krause, Isabelle Becher, H Christian Eberl, Johanna Vappiani, Daniel C Sevin, Christina E Rau, Holger Franken, Wolfgang Huber, Maria Faelth-Savitski, Mikhail M Savitski, Marcus Bantscheff, Giovanna Bergamini
ABSTRACT

Monitoring drug-target interactions with methods such as the cellular thermal-shift assay (CETSA) is well established for simple cell systems but remains challenging in vivo. Here we introduce tissue thermal proteome profiling (tissue-TPP), which measures binding of small-molecule drugs to proteins in tissue samples from drug-treated animals by detecting changes in protein thermal stability using quantitative mass spectrometry. We report organ-specific, proteome-wide thermal stability maps and derive target profiles of the non-covalent histone deacetylase inhibitor panobinostat in rat liver, lung, kidney and spleen and of the B-Raf inhibitor vemurafenib in mouse testis. In addition, we devised blood-CETSA and blood-TPP and applied it to measure target and off-target engagement of panobinostat and the BET family inhibitor JQ1 directly in whole blood. Blood-TPP analysis of panobinostat confirmed its binding to known targets and also revealed thermal stabilization of the zinc-finger transcription factor ZNF512. These methods will help to elucidate the mechanisms of drug action in vivo.

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