Abstract
Benzoxazepinones have been extensively studied as exclusively selective RIP kinase 1 inhibitors. This scaffold binds as a type-III inhibitor targeting the αC-out/DFG-out conformation. This inactive conformation results in a large expansion of the kinase back pocket, a conformation that has also been reported for LIM kinases. Scaffold hopping is common in the design of orthosteric kinase inhibitors, but has not been explored in the design of allosteric inhibitors, mainly due to the typically exclusive selectivity of type III inhibitors. Here, we hypothesized that the shared structural properties of LIMKs and RIPKs could lead to novel type III LIMK inhibitors using the benzoxazepinone scaffold. We report the discovery of a novel LIMK1/2 inhibitor that relies on this scaffold-based approach. The discovered compound 10 showed low nanomolar potency on LIMK1/2 and exceptional selectivity, as confirmed by a comprehensive selectivity panel with residual RIPK activity as the only off-target. The study provides one of the few examples for scaffold hopping for type-III inhibitors which are usually associated with exclusive target selectivity.
Competing Interest Statement
The authors declare the following competing financial interest(s): B.-T.B. is a co-founder and the CEO of the Contract Research Organization CELLinib GmbH (Frankfurt am Main, Germany). The other authors declare no conflict of interest.
Abbreviations
- LIMK1
- LIM Domain Kinase1
- RIPK1
- receptor-interacting serine/threonine-protein kinase 1
- TKL
- tyrosine kinase like;