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Molecular modeling provides a structural basis for PERK inhibitor selectivity towards RIPK1

Chetan Chintha, Antonio Carlesso, Adrienne M. Gorman, Afshin Samali, Leif A. Eriksson

2020RSC Advances30 citationsDOIOpen Access PDF

Abstract

analysis using molecular docking followed by molecular dynamics simulations to explore the selectivity profiles of the compounds. Although the binding sites of PERK and RIPK1 are similar, their binding response to small molecules is different. The docking models revealed a common binding mode for GSK2606414 and GSK2656157 in the RIPK1 binding site, similar to its cognate ligand. In contrast, AMG44 had a strikingly different predicted binding profile in the RIPK1 binding site with both rigid docking and induced fit docking settings. Our study shows a molecular mechanism responsible for dual targeting by the GSK ligands. More broadly, this work illustrates the potential of molecular docking to correctly predict the binding towards different kinase structures, and will aid in the design of selective PERK kinase inhibitors.

Topics & Concepts

Docking (animal)In silicoBinding siteChemistryKinaseMolecular dynamicsVirtual screeningMolecular modelSmall moleculeBiophysicsBiochemistryComputational biologyDrug discoveryBiologyComputational chemistryGeneMedicineNursingCell death mechanisms and regulationComputational Drug Discovery MethodsEnzyme Structure and Function
Molecular modeling provides a structural basis for PERK inhibitor selectivity towards RIPK1 | Litcius