Derivates of 1,6-dihyadroazaazulenes as inhibitors of tyrosine kinases BCR-ABL1 wild type and mutant T315I: a molecular dynamics approach

Abstract

The protein tyrosine kinase (PTK) produced by the BCR-ABL1 gene has generated significant interest in the development of inhibitors since the presence of punctual mutations causes resistance to currently approved drugs, mainly the T315I mutation has been the most difficult to address. In this work, derivatives of 1,6-dihydroazaazulenes are studied as possible inhibitors of this PTK in its wild form and the mutant T315I. The recognition of the ligands was explored through molecular docking, and the stability of the complexes and their evolution over time was studied using molecular dynamics (MD) simulations. Our results show that complexes are energetically stable and reside on the ATP binding site in all cases during the MD experiments. Interestingly, a few of our proposed ligands presented greater affinity for T315I, finding more favorable binding free energies (ΔG) than the reference drug axitinib. Furthermore, they may act as inhibitors for both isoforms. Our findings are promising because mutation of T315I does not prevent ligand recognition, as detailed in this work, which is very important to conduct further experimental research. Communicated by Ramaswamy H. Sarma