Back pocket flexibility provides group II p21-activated kinase (PAK) selectivity for type I 1/2 kinase inhibitors
ST Staben, JA Feng, K Lyle, M Belvin… - Journal of medicinal …, 2014 - ACS Publications
ST Staben, JA Feng, K Lyle, M Belvin, J Boggs, JD Burch, C Chua, H Cui, AG DiPasquale…
Journal of medicinal chemistry, 2014•ACS PublicationsStructure-based methods were used to design a potent and highly selective group II p21-
activated kinase (PAK) inhibitor with a novel binding mode, compound 17. Hydrophobic
interactions within a lipophilic pocket past the methionine gatekeeper of group II PAKs
approached by these type I 1/2 binders were found to be important for improving potency. A
structure-based hypothesis and strategy for achieving selectivity over group I PAKs, and the
broad kinome, based on unique flexibility of this lipophilic pocket, is presented. A …
activated kinase (PAK) inhibitor with a novel binding mode, compound 17. Hydrophobic
interactions within a lipophilic pocket past the methionine gatekeeper of group II PAKs
approached by these type I 1/2 binders were found to be important for improving potency. A
structure-based hypothesis and strategy for achieving selectivity over group I PAKs, and the
broad kinome, based on unique flexibility of this lipophilic pocket, is presented. A …
Structure-based methods were used to design a potent and highly selective group II p21-activated kinase (PAK) inhibitor with a novel binding mode, compound 17. Hydrophobic interactions within a lipophilic pocket past the methionine gatekeeper of group II PAKs approached by these type I 1/2 binders were found to be important for improving potency. A structure-based hypothesis and strategy for achieving selectivity over group I PAKs, and the broad kinome, based on unique flexibility of this lipophilic pocket, is presented. A concentration-dependent decrease in tumor cell migration and invasion in two triple-negative breast cancer cell lines was observed with compound 17.
ACS Publications