Analyzing resistance pattern of non-small cell lung cancer to crizotinib using molecular dynamic approaches.
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Date
2015-02
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Abstract
Crizotinib is the potential anticancer drug used for the treatment of non-small cell lung cancer (NSCLC) approved by FDA in 2011. The main target for the crizotinib is anaplastic lymphoma kinase (ALK). Evidences available indicate that double mutant ALK (L1196M and G1269A) confers resistance to crizotinib. However, how mutation confers drug resistance is not well-understood. Hence, in the present study, molecular dynamic (MD) simulation approach was employed to study the impact of crizotinib binding efficacy with ALK structures at a molecular level. Docking results indicated that ALK double mutant (L1196M and G1269A) significantly affected the binding affinity for crizotinib. Furthermore, MD studies revealed that mutant ALK-crizotinib complex showed higher deviation, higher fluctuation and decreased number of intermolecular H-bonds, when compared to the native ALK-crizotinib complex. These results may be immense importance for the molecular level understanding of the crizotinib resistance pattern and also for designing potential drug molecule for the treatment of lung cancer.
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Non-small cell lung cancer, Crizotinib resistance, Molecular dynamic simulation
Citation
Kumar Anish, Ramanathan K. Analyzing resistance pattern of non-small cell lung cancer to crizotinib using molecular dynamic approaches. Indian Journal of Biochemistry & Biophysics. 2015 Feb; 52 (1): 23-28.