Pharmaceuticals, Research & Development, Bayer AG, Muellerstrasse 178, 13353, Berlin, Germany.
J Hematol Oncol. 2019 Jun 28;12(1):66. doi: 10.1186/s13045-019-0749-y.
The chromosomal rearrangements of the mixed-lineage leukemia gene MLL (KMT2A) have been extensively characterized as a potent oncogenic driver in leukemia. For its oncogenic function, most MLL-fusion proteins exploit the multienzyme super elongation complex leading to elevated expression of MLL target genes. High expression of MLL target genes overwrites the normal hematopoietic differentiation program, resulting in undifferentiated blasts characterized by the capacity to self-renew. Although extensive resources devoted to increased understanding of therapeutic targets to overcome de-differentiation in ALL/AML, the inter-dependencies of targets are still not well described. The majority of inhibitors potentially interfering with MLL-fusion protein driven transformation have been characterized in individual studies, which so far hindered their direct cross-comparison.
In our study, we characterized head-to-head clinical stage inhibitors for BET, DHODH, DOT1L as well as two novel inhibitors for CDK9 and the Menin-MLL interaction with a focus on differentiation induction. We profiled those inhibitors for global gene expression effects in a large cell line panel and examined cellular responses such as inhibition of proliferation, apoptosis induction, cell cycle arrest, surface marker expression, morphological phenotype changes, and phagocytosis as functional differentiation readout. We also verified the combination potential of those inhibitors on proliferation and differentiation level.
Our analysis revealed significant differences in differentiation induction and in modulating MLL-fusion target gene expression. We observed Menin-MLL and DOT1L inhibitors act very specifically on MLL-fused leukemia cell lines, whereas inhibitors of BET, DHODH and P-TEFb have strong effects beyond MLL-fusions. Significant differentiation effects were detected for Menin-MLL, DOT1L, and DHODH inhibitors, whereas BET and CDK9 inhibitors primarily induced apoptosis in AML/ALL cancer models. For the first time, we explored combination potential of the abovementioned inhibitors with regards to overcoming the differentiation blockage.
Our findings show substantial diversity in the molecular activities of those inhibitors and provide valuable insights into the further developmental potential as single agents or in combinations in MLL-fused leukemia.
混合谱系白血病基因 MLL(KMT2A)的染色体重排已被广泛描述为白血病中的强大致癌驱动因素。对于其致癌功能,大多数 MLL 融合蛋白利用多酶超级延伸复合物导致 MLL 靶基因的高表达。MLL 靶基因的高表达覆盖了正常的造血分化程序,导致未分化的blasts 具有自我更新的能力。尽管为了增加对克服 ALL/AML 去分化的治疗靶点的理解投入了大量资源,但靶点之间的相互依赖关系仍未得到很好的描述。大多数潜在干扰 MLL 融合蛋白驱动转化的抑制剂已在个别研究中得到描述,迄今为止,这阻碍了它们的直接交叉比较。
在我们的研究中,我们针对 BET、DHODH、DOT1L 以及两种新型 CDK9 和 Menin-MLL 相互作用抑制剂进行了头对头的临床阶段抑制剂研究,重点是诱导分化。我们在大型细胞系面板中对这些抑制剂进行了全局基因表达效应的分析,并检查了细胞反应,如增殖抑制、凋亡诱导、细胞周期停滞、表面标记表达、形态表型变化和吞噬作用等功能分化的读出。我们还验证了这些抑制剂在增殖和分化水平上的联合潜力。
我们的分析显示在分化诱导和调节 MLL 融合靶基因表达方面存在显著差异。我们观察到 Menin-MLL 和 DOT1L 抑制剂对 MLL 融合白血病细胞系非常特异,而 BET、DHODH 和 P-TEFb 的抑制剂在 MLL 融合之外具有很强的作用。Menin-MLL、DOT1L 和 DHODH 抑制剂检测到显著的分化作用,而 BET 和 CDK9 抑制剂主要在 AML/ALL 癌症模型中诱导凋亡。我们首次探索了上述抑制剂联合应用克服分化阻滞的潜力。
我们的研究结果表明,这些抑制剂的分子活性存在显著差异,并为其作为单一药物或联合应用于 MLL 融合白血病的进一步发展潜力提供了有价值的见解。
Zotero 插件
