ARIAD Pharmaceuticals Inc, 26 Landsdowne St., Cambridge, MA 02139, USA.
Chem Biol Drug Des. 2010 Jan;75(1):18-28. doi: 10.1111/j.1747-0285.2009.00905.x. Epub 2009 Nov 5.
Bcr-Abl is the oncogenic protein tyrosine kinase responsible for chronic myeloid leukemia (CML). Treatment of the disease with imatinib (Gleevec) often results in drug resistance via kinase mutations at the advanced phases of the disease, which has necessitated the development of new mutation-resistant inhibitors, notably against the T315I gatekeeper mutation. As part of our efforts to discover such mutation resistant Abl inhibitors, we have focused on optimizing purine template kinase inhibitors, leading to the discovery of potent DFG-in and DFG-out series of Abl inhibitors that are also potent Src inhibitors. Here we present crystal structures of Abl bound by two such inhibitors, based on a common N9-arenyl purine, and that represent both DFG-in and -out binding modes. In each structure the purine template is bound deeply in the adenine pocket and the novel vinyl linker forms a non-classical hydrogen bond to the gatekeeper residue, Thr315. Specific template substitutions promote either a DFG-in or -out binding mode, with the kinase binding site adjusting to optimize molecular recognition. Bcr-Abl T315I mutant kinase is resistant to all currently marketed Abl inhibitors, and is the focus of intense drug discovery efforts. Notably, our DFG-out inhibitor, AP24163, exhibits modest activity against this mutant, illustrating that this kinase mutant can be inhibited by DFG-out class inhibitors. Furthermore our DFG-out inhibitor exhibits dual Src-Abl activity, absent from the prototypical DFG-out inhibitor, imatinib as well as its analog, nilotinib. The data presented here provides structural guidance for the further design of novel potent DFG-out class inhibitors against Src, Abl and Abl T315I mutant kinases.
Bcr-Abl 是导致慢性髓性白血病(CML)的致癌蛋白酪氨酸激酶。在疾病的晚期,由于激酶突变,用伊马替尼(格列卫)治疗该病常常导致耐药性,这就需要开发新的耐药突变抑制剂,特别是针对 T315I 看门突变。作为我们发现这种突变耐药 Abl 抑制剂的努力的一部分,我们专注于优化嘌呤模板激酶抑制剂,导致发现了有效的 DFG-内和 DFG-外系列 Abl 抑制剂,它们也是有效的Src 抑制剂。在这里,我们介绍了两种基于常见的 N9-芳基嘌呤的 Abl 抑制剂结合的晶体结构,它们代表了 DFG-内和 DFG-外结合模式。在每个结构中,嘌呤模板都深深地结合在腺嘌呤口袋中,而新型乙烯基接头与看门残基 Thr315 形成非经典氢键。特定的模板取代促进 DFG-内或 -外结合模式,激酶结合位点进行调整以优化分子识别。Bcr-Abl T315I 突变激酶对所有目前上市的 Abl 抑制剂均有耐药性,是药物发现的重点。值得注意的是,我们的 DFG-外抑制剂 AP24163 对这种突变体具有适度的活性,表明这种激酶突变体可以被 DFG-外类抑制剂抑制。此外,我们的 DFG-外抑制剂具有双重Src-Abl 活性,而原型 DFG-外抑制剂伊马替尼及其类似物尼洛替尼则没有这种活性。这里呈现的数据为进一步设计针对 Src、Abl 和 Abl T315I 突变激酶的新型强效 DFG-外类抑制剂提供了结构指导。
