Substituent Effects on Drug-Receptor H-bond Interactions: Correlations Useful for the Design of Kinase Inhibitors.

Investigation of troponin I-interacting kinase (TNNI3K) as a potential target for the treatment of heart failure has produced a series of substituted N-methyl-3-(pyrimidin-4-ylamino)benzenesulfonamide inhibitors that display excellent potency and selectivity against a broad spectrum of protein kinases. Crystal structures of prototypical members bound to the ATP-binding site of TNNI3K reveal two anchoring hydrogen bond contacts: (1) from the hinge region amide N-H to the pyrimidine nitrogen and (2) from the sulfonamide N-H to the gatekeeper threonine. Evaluation of various para-substituted benzenesulfonamides defined a substituent effect on binding affinity resulting from modulation of the sulfonamide H-bond donor strength. An opposite electronic effect emerged for the hinge NH-pyrimidine H-bond interaction, which is further illuminated in the correlation of calculated H-bond acceptor strength and TNNI3K affinity for a variety of hinge binding heterocycles. These fundamental correlations on drug-receptor H-bond interactions may be generally useful tools for the optimization of potency and selectivity in the design of kinase inhibitors.