Competition-based, quantitative chemical proteomics in breast cancer cells identifies new target profiles for sulforaphane.

Sulforaphane is a small molecule isothiocyanate which exhibits anticancer potential, yet its biological targets remain poorly understood. Here we employ a competition-based chemical proteomics strategy to profile sulforaphane's targets and identify over 500 targets along with their relative affinities. These targets provide a new set of mediators for sulforaphane's bioactivity, and aid understanding of its complex mode of action.

Target profiling of zerumbone using a novel cell-permeable clickable probe and quantitative chemical proteomics.

Zerumbone is a phytochemical with diverse biological activities ranging from anti-inflammatory to anti-cancer properties; however, to date the cellular targets of this important compound have remained elusive. Here we report the global protein target spectrum of zerumbone in living cancer cells using competitive activity-based protein profiling of a novel cell-permeable clickable probe, combined with quantitative mass spectrometry.