Abstract
BCR gene fused ABL kinase is the critical driving force for the Philadelphia Chromosome positive (Ph+) Chronic Myeloid Leukemia (CML) and has been extensively explored as a drug target. With a structure-based drug design approach we have discovered a novel inhibitor CHMFL-074, that potently inhibits both the native and a variety of clinically emerged mutants of BCR-ABL kinase. The X-ray crystal structure of CHMFL-074 in complex with ABL1 kinase (PDB ID: 5HU9) revealed a typical type II binding mode (DFG-out) but relatively rare hinge binding. Kinome wide selectivity profiling demonstrated that CHMFL-074 bore a high selectivity (S score(1) = 0.03) and potently inhibited ABL1 kinase (IC50: 24 nM) and PDGFR α/β (IC50: 71 nM and 88 nM). CHMFL-074 displayed strong anti-proliferative efficacy against BCR-ABL–driven CML cell lines such as K562 (GI50: 56 nM), MEG-01 (GI50: 18 nM) and KU812 (GI50: 57 nM). CHMFL-074 arrested cell cycle into the G0/G1 phase and induced apoptosis in the Ph+ CML cell lines. In addition, it potently inhibited the CML patient primary cell's proliferation but did not affect the normal bone marrow cells. In the CML cell K562 inoculated xenograft mouse model, oral administration of 100 mg/kg/d of CHMFL-074 achieved a tumor growth inhibition (TGI) of 65% without exhibiting apparent toxicity. As a potential drug candidate for fighting CML, CHMFL-074 is under extensive preclinical safety evaluation now.
Highlights
Chronic Myeloid Leukemia (CML) is a hematological cancer of the white cells and constitutes about 15% of adult leukemia with a diagnostic rate of 1 ~ 2/100,000 people [1]
The first break point cluster region (BCR)-ABL inhibitor, Imatinib (Gleevec [5]), as the seminal target therapy for the CML has achieved great clinical success and several other ABL inhibitors such as Nilotinib [6], Dasatinib [7], Bosutinib [8] and Ponatinib [9] have been developed to be used as the second line therapy to overcome a variety of the drug resistances induced by either various of point mutations or the chronic drug treatment induced BCR-ABL gene amplification [10]
It did potently inhibit PDGFRα/β kinase activity (GI50: 0.095 μM and 0.052 μM respectively), though it was less active than Imatinib against them
Summary
Chronic Myeloid Leukemia (CML) is a hematological cancer of the white cells and constitutes about 15% of adult leukemia with a diagnostic rate of 1 ~ 2/100,000 people [1]. The first BCR-ABL inhibitor, Imatinib (Gleevec [5]), as the seminal target therapy for the CML has achieved great clinical success and several other ABL inhibitors such as Nilotinib [6], Dasatinib [7], Bosutinib [8] and Ponatinib [9] have been developed to be used as the second line therapy to overcome a variety of the drug resistances induced by either various of point mutations or the chronic drug treatment induced BCR-ABL gene amplification [10]. Given the fact that more and more drug-treatment-induced point mutations associated resistance emerged from the clinic and different drugs bear different efficacy and toxicity profiles, diverse pharmacophore-based new inhibitors are needed to provide more options for fighting the CML. We report a novel type II BCR-ABL kinase /PDGFR dual kinase inhibitor, CHMFL-074, which exhibits high selectivity among the kinome and high potencies against both the native and a variety of clinically important mutants of BCR-ABL kinases both in vitro and in vivo
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