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小分子双重靶向细胞周期蛋白依赖性激酶抑制剂α和转录激酶 CDK7/9 可控制临床前模型中的 AML。

Small Molecules Co-targeting CKIα and the Transcriptional Kinases CDK7/9 Control AML in Preclinical Models.

机构信息

The Lautenberg Center for Immunology and Cancer Research, Institute of Medical Research Israel-Canada, Hebrew University-Hadassah Medical School, Jerusalem, Israel.

The Lautenberg Center for Immunology and Cancer Research, Institute of Medical Research Israel-Canada, Hebrew University-Hadassah Medical School, Jerusalem, Israel; Department of Hematology, Hadassah Medical Center, Hebrew University-Hadassah Medical School, Jerusalem, Israel.

出版信息

Cell. 2018 Sep 20;175(1):171-185.e25. doi: 10.1016/j.cell.2018.07.045. Epub 2018 Aug 23.

DOI:10.1016/j.cell.2018.07.045
PMID:30146162
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6701634/
Abstract

CKIα ablation induces p53 activation, and CKIα degradation underlies the therapeutic effect of lenalidomide in a pre-leukemia syndrome. Here we describe the development of CKIα inhibitors, which co-target the transcriptional kinases CDK7 and CDK9, thereby augmenting CKIα-induced p53 activation and its anti-leukemic activity. Oncogene-driving super-enhancers (SEs) are highly sensitive to CDK7/9 inhibition. We identified multiple newly gained SEs in primary mouse acute myeloid leukemia (AML) cells and demonstrate that the inhibitors abolish many SEs and preferentially suppress the transcription elongation of SE-driven oncogenes. We show that blocking CKIα together with CDK7 and/or CDK9 synergistically stabilize p53, deprive leukemia cells of survival and proliferation-maintaining SE-driven oncogenes, and induce apoptosis. Leukemia progenitors are selectively eliminated by the inhibitors, explaining their therapeutic efficacy with preserved hematopoiesis and leukemia cure potential; they eradicate leukemia in MLL-AF9 and Tet2;Flt3 AML mouse models and in several patient-derived AML xenograft models, supporting their potential efficacy in curing human leukemia.

摘要

CKIα 缺失会诱导 p53 激活,而 lenalidomide 的治疗效果则依赖于 CKIα 的降解,这在白血病前期综合征中表现得尤为明显。在此,我们描述了 CKIα 抑制剂的开发,该抑制剂靶向转录激酶 CDK7 和 CDK9,从而增强 CKIα 诱导的 p53 激活及其抗白血病活性。致癌基因驱动的超级增强子(SEs)对 CDK7/9 抑制非常敏感。我们在原发性小鼠急性髓系白血病(AML)细胞中鉴定出多个新获得的 SEs,并证明这些抑制剂可消除许多 SEs,并优先抑制 SE 驱动的致癌基因的转录延伸。我们表明,阻断 CKIα 与 CDK7 和/或 CDK9 联合使用可协同稳定 p53,使白血病细胞失去生存和增殖所需的 SE 驱动的致癌基因,并诱导细胞凋亡。抑制剂选择性地消除白血病祖细胞,解释了它们在保留造血和白血病治愈潜力的情况下的治疗效果;它们在 MLL-AF9 和 Tet2;Flt3 AML 小鼠模型以及几种患者来源的 AML 异种移植模型中根除了白血病,支持了它们在治疗人类白血病方面的潜在疗效。

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