KIT 驱动的髓性白血病中的 Sp1/NFkappaB/HDAC/miR-29b 调控网络。
Sp1/NFkappaB/HDAC/miR-29b regulatory network in KIT-driven myeloid leukemia.
机构信息
Division of Hematology-Oncology, The Ohio State University, Columbus, OH 43210, USA.
出版信息
Cancer Cell. 2010 Apr 13;17(4):333-47. doi: 10.1016/j.ccr.2010.03.008.
Abstract
The biologic and clinical significance of KIT overexpression that associates with KIT gain-of-function mutations occurring in subsets of acute myeloid leukemia (AML) (i.e., core binding factor AML) is unknown. Here, we show that KIT mutations lead to MYC-dependent miR-29b repression and increased levels of the miR-29b target Sp1 in KIT-driven leukemia. Sp1 enhances its own expression by participating in a NFkappaB/HDAC complex that further represses miR-29b transcription. Upregulated Sp1 then binds NFkappaB and transactivates KIT. Therefore, activated KIT ultimately induces its own transcription. Our results provide evidence that the mechanisms of Sp1/NFkappaB/HDAC/miR-29b-dependent KIT overexpression contribute to leukemia growth and can be successfully targeted by pharmacological disruption of the Sp1/NFkappaB/HDAC complex or synthetic miR-29b treatment in KIT-driven AML.
摘要
KIT 过表达的生物学和临床意义尚不清楚,它与某些急性髓系白血病(AML)(即核心结合因子 AML)中发生的 KIT 功能获得性突变相关。在这里,我们表明 KIT 突变导致 MYC 依赖性 miR-29b 抑制和 miR-29b 靶标 Sp1 的水平增加,在 KIT 驱动的白血病中。Sp1 通过参与 NFkappaB/HDAC 复合物来增强自身表达,该复合物进一步抑制 miR-29b 的转录。上调的 Sp1 然后与 NFkappaB 结合并反式激活 KIT。因此,激活的 KIT 最终诱导其自身的转录。我们的研究结果提供了证据,表明 Sp1/NFkappaB/HDAC/miR-29b 依赖性 KIT 过表达的机制有助于白血病的生长,并且可以通过 Sp1/NFkappaB/HDAC 复合物的药理学破坏或合成 miR-29b 治疗在 KIT 驱动的 AML 中成功靶向。
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