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[Cancer Research 63, 6395-6404, October 1, 2003]
© 2003 American Association for Cancer Research

Regular Articles

Inhibition of Wild-Type and Mutant Bcr-Abl by Pyrido-Pyrimidine-Type Small Molecule Kinase Inhibitors1

Nikolas von Bubnoff, Darren R. Veach, W. Todd Miller, Wanqing Li, Jana Sänger, Christian Peschel, William G. Bornmann, Bayard Clarkson2 and Justus Duyster2

Department of Internal Medicine III, Technical University of Munich, Munich, Germany [N. v. B., J. S., C. P., J. D.]; Memorial Sloan-Kettering Cancer Center, New York, New York 10021 [D. R. V., W. G. B., B. C.]; and Department of Physiology and Biophysics, School of Medicine, State University of New York at Stony Brook, Stony Brook, New York 11794 [W. T. M., W. L.]

Imatinib mesylate (STI571, Glivec), a 2-phenylaminopyrimidine small-molecule ATP competitor-type kinase inhibitor, proved to be active in Philadelphia-positive leukemias. Resistance toward imatinib develops frequently in advanced-stage Philadelphia-positive leukemia, and is even observed in chronic-phase chronic myelogenous leukemia. Point mutations within the BCR-ABL kinase domain emerged as a major mechanism of resistance toward imatinib. Mutations occur at positions that determine specific contacts of imatinib to the ATP-binding site. We aimed to examine whether pyrido-pyrimidine-type kinase inhibitors were capable of inhibiting both wild-type and mutant forms of BCR-ABL. We screened 13 different pyrido-pyrimidine with cells expressing wild-type and mutant BCR-ABL. All of the substances specifically suppressed the Bcr-Abl dependent phenotype and inhibited Bcr-Abl kinase activity with higher potency than imatinib. Two of the most active compounds were PD166326 and SKI DV-M016. Interestingly, these compounds suppressed the activation loop mutant Bcr-Abl H396P as effectively as wild-type Bcr-Abl. In addition, nucleotide-binding loop mutations (Y253H, E255K, and E255V) were selectively and potently inhibited. In contrast, T315I, a mutant located at a position that makes a direct contact with imatinib, was not affected. This observation is consistent with the hypothesis that unlike imatinib, pyrido-pyrimidine inhibitors bind Bcr-Abl regardless of the conformation of the activation loop. We conclude that pyrido-pyrimidine-type kinase inhibitors are active against different frequently observed kinase domain mutations of BCR-ABL that cause resistance toward imatinib. Resistance as a consequence of selection of mutant BCR-ABL by imatinib may be overcome using second-generation kinase inhibitors because of their higher potency and their ability to bind Bcr-Abl irrespective of the conformation of the activation loop.




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