Thermodynamic Dissection of Potency and Selectivity of Cytosolic Hsp90 Inhibitors.

The cytosolic Hsp90-selective inhibitor TAS-116 has an acceptable safety profile and promising antitumor activity in clinical trials. We examined the binding characteristics of TAS-116 and its analogs to determine the impact of the ligand binding mode on selectivity for cytosolic Hsp90. Analyses of the co-crystal structure of Hsp90 and inhibitor TAS-116 suggest that TAS-116 interacts with the ATP-binding pocket, the ATP lid region, and the hydrophobic pocket. A competitive isothermal titration calorimetry analysis confirmed that a small fragment of TAS-116 (THS-510) docks into the lid region and hydrophobic pockets without binding to the ATP-binding pocket. THS-510 exhibited enthalpy-driven binding to Hsp90α and selectively inhibited cytosolic Hsp90 activity. The heat capacity change of THS-510 binding was positive, likely due to the induced conformational rearrangement of Hsp90. Thus, we concluded that interactions with the hydrophobic pocket of Hsp90 determine potency and selectivity of TAS-116 and derivatives for the cytosolic Hsp90 isoform.