Dual Src/Abl inhibitor SKI-606 binding mode in BCR-ABL kinase hypothesized on the basis of molecular docking studies

Autor: SOVERINI, SIMONA, TASCO, GIANLUCA, GRAFONE, TIZIANA, COLAROSSI, SABRINA, ROSTI, GIANANTONIO, CASTAGNETTI, FAUSTO, PALANDRI, FRANCESCA, RONDONI, MICHELA, POERIO, ANGELA, IACOBUCCI, ILARIA, AMABILE, MARILINA, BACCARANI, MICHELE, CASADIO, RITA, MARTINELLI, GIOVANNI, Gnani A.
Přispěvatelé: Soverini S., Tasco G., Grafone T., Colarossi S., Gnani A., Rosti G., Castagnetti F., Palandri F., Rondoni M., Poerio A., Iacobucci I., Amabile M., Baccarani M., Casadio R., Martinelli G.
Jazyk: angličtina
Rok vydání: 2006
Předmět:
Popis: Background SKI-606 is a novel 4-anilino-3-quinolinecarbonitrile Src and Abl kinase inhibitor. SKI-606 has been shown to be a potent antiproliferative and proapoptotic agent when tested on Bcr-Abl-positive cell lines. The remarkable efficacy of SKI-606 against chronic myeloid leukemia (CML) cells in culture was mirrored by its activity in vivo against CML xenografts: K562 tumors regressed in nude mice when SKI-606 was administered per os once daily over a 5-day period. The crystal structure of the Bcr-Abl kinase domain in complex with SKI-606 has not yet been determined and the mode of binding of this inhibitor is therefore unknown. Moreover, there are currently no published data on the ability of SKI-606 to bind and efficiently inhibit the Bcr-Abl mutants known to confer resistance to imatinib. Aims In this study, we used a molecular docking approach to a) determine SKI-606 binding mode to the wild-type (wt) form of the Bcr-Abl kinase; b) hypothesize SKI-606 binding mode to the more frequent, clinically relevant Bcr-Abl mutants known not to be inhibited by imatinib; c) predict which novel mutant forms might emerge and interfere with SKI-606 binding. Methods Modelling of the human Abl kinase was performed with the program Modeller v7.7 (http://salilab.org/modeller) adopting the highly related Mus musculus Abl homologue as a template structure (PDB: 1OPJ, 0.175nm resolution). Chemsketch (http://www.acdlabs.com) was used to build a three-dimensional model of SKI-606. Flexible docking of the ligand to the protein was performed with Autodock v3.0 (http://www.scripps.edu/mb/olson). Results We first docked SKI-606 on Bcr-Abl with the activation loop in the active (open) and inactive (closed) conformation (the latter is the one to which imatinib binds). According to our results, the interaction between SKI-606 and Bcr-Abl seems to be more stable when the activation loop is in the inactive conformation. The consequent structural study of SKI-606 modeled into wt-Bcr-Abl ATP binding site highlighted the variant residues located within a spherical environment of 0.5nm centered on SKI-606: Y253, T315 and F359 (residues numbered according to ABL exon Ia splice variant). The binding of SKI-606 to the eight Bcr-Abl mutants which are most frequently implicated in clinical resistance to imatinib mesylate was also studied: G250E, Y253H, E255K, T315I, M351T, F359V, H396R. Our results indicated that SKI-606 retains the ability of efficiently binding all the above mentioned Bcr-Abl variants with the exception of the T315I mutant. Finally, we identified six potential residues around SKI-606 that, if mutated, could potentially be able to interfere with the SKI-606/Bcr-Abl interaction: a) the charged residues K271, D381 and H361; b) the hydrophobic/aliphatic residues V299, A380 and M318. Conclusions Pre-clinical data suggest that SKI-606 is a promising second-generation kinase inhibitor with potent antiproliferative and proapoptotic effects on CML cells. Our docking experiments indicate that SKI-606 may prove effective in imatinib-resistant patients since it is expected to retain the ability to bind several Bcr-Abl mutant forms. A phase I trial is about to start in CML and Philadelphia-positive acute lymphoblastic leukemia.
Databáze: OpenAIRE