Litcius/Paper detail

Protein Flexibility and Dissociation Pathway Differentiation Can Explain Onset of Resistance Mutations in Kinases**

Mrinal Shekhar, Zachary Smith, Markus A. Seeliger, Pratyush Tiwary

2022Angewandte Chemie International Edition51 citationsDOIOpen Access PDF

Abstract

Understanding how mutations render a drug ineffective is a problem of immense relevance. Often the mechanism through which mutations cause drug resistance can be explained purely through thermodynamics. However, the more perplexing situation is when two proteins have the same drug binding affinities but different residence times. In this work, we demonstrate how all-atom molecular dynamics simulations using recent developments grounded in statistical mechanics can provide a detailed mechanistic rationale for such variances. We discover dissociation mechanisms for the anti-cancer drug Imatinib (Gleevec) against wild-type and the N368S mutant of Abl kinase. We show how this point mutation triggers far-reaching changes in the protein's flexibility and leads to a different, much faster, drug dissociation pathway. We believe that this work marks an efficient and scalable approach to obtain mechanistic insight into resistance mutations in biomolecular receptors that are hard to explain using a structural perspective.

Topics & Concepts

KinaseDissociation (chemistry)Cell biologyGeneticsBiologyChemistryPhysical chemistryChronic Myeloid Leukemia TreatmentsChronic Lymphocytic Leukemia ResearchProtein Kinase Regulation and GTPase Signaling