Abstract
Novel drugs are designed against specific molecular targets, but almost unavoidably they bind non-targets, which can cause additional biological effects that may result in increased activity or, more frequently, undesired toxicity. Chemical proteomics is an ideal approach for the systematic identification of drug targets and off-targets, allowing unbiased screening of candidate interactors in their natural context (tissue or cell extracts).E-3810 is a novel multi-kinase inhibitor currently in clinical trials for its anti-angiogenic and anti-tumor activity. In biochemical assays, E-3810 targets primarily vascular endothelial growth factor and fibroblast growth factor receptors. Interestingly, E-3810 appears to inhibit the growth of tumor cells with low to undetectable levels of these proteins in vitro, suggesting that additional relevant targets exist. We applied chemical proteomics to screen for E-3810 targets by immobilizing the drug on a resin and exploiting stable isotope labeling by amino acids in cell culture to design experiments that allowed the detection of novel interactors and the quantification of their dissociation constant (Kd imm) for the immobilized drug. In addition to the known target FGFR2 and PDGFRα, which has been described as a secondary E-3810 target based on in vitro assays, we identified six novel candidate kinase targets (DDR2, YES, LYN, CARDIAK, EPHA2, and CSBP). These kinases were validated in a biochemical assay and—in the case of the cell-surface receptor DDR2, for which activating mutations have been recently discovered in lung cancer—cellular assays.Taken together, the success of our strategy—which integrates large-scale target identification and quality-controlled target affinity measurements using quantitative mass spectrometry—in identifying novel E-3810 targets further supports the use of chemical proteomics to dissect the mechanism of action of novel drugs.
Highlights
E-3810 is a novel multi-kinase inhibitor currently in clinical trials for its anti-angiogenic and anti-tumor activity
No crystallographic data are available on E-3810 – kinase complexes, structurally related kinase inhibitors are known to interact with a “hinge region” backbone NH (Cys 919 for vascular endothelial growth factor receptors (VEGFRs)-2, Met1160 for c-MET) through a critical hydrogen bond with the quinoline nitrogen, pointing the substituent at position 7 toward the solvent front [22,23,24,25]
Assuming a similar binding mode for E-3810, we attached the linker for solid support at this position, in order to minimize the impact on binding affinity to the ATP kinase pocket
Summary
E-3810 Derivatization and Immobilization—E-3810 (kindly provided by EOS S.p.A., Milano, Italy) was derivatized at the amino moiety of the substituent in position 7 of the quinoline nucleus with a propyl N-[2-[(2-methoxyacetyl)amino]ethyl]carbamate linker and subsequently loaded onto agarose resin following the reaction scheme reported in supplemental Fig. S1. For the competition assay performed with free E-3810, 1 mg of protein extract obtained from unlabeled A2780 cells was incubated overnight at 4 °C with 40 l of E-3810 resin slurry in the presence of increasing amounts of free E-3810 (15, 60, and 240 nmol, corresponding to concentrations of 30, 120, and 480 M in 0.5 ml of lysate volume); the molar ratios of free, competing E-3810 to the immobilized form of the drug were equivalent to 0.125-, 0.5-, and 2-fold. Competition Assay Based on Quantitative Chemical Proteomics—1 mg of protein extract obtained from light-labeled or heavy-labeled (Arg and Lys8) A2780 cells was incubated overnight at 4 °C with 40 l of E-3810 resin slurry. Forward and reverse experiments were analyzed together, with the number of clusters set at three, to detect proteins competed at the three different concentrations of free inhibitor used in the competition assay, as described above. Stained cells were analyzed by FACScan (BD Biosciences) to evaluate the percentage of apoptotic cells and to profile cell phases
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