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SALL4/MLL/HOXA9 通路在鼠类和人类髓系白血病发生中的作用。

A SALL4/MLL/HOXA9 pathway in murine and human myeloid leukemogenesis.

出版信息

J Clin Invest. 2013 Oct;123(10):4195-207. doi: 10.1172/JCI62891. Epub 2013 Sep 24.

DOI:10.1172/JCI62891
PMID:24051379
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3784519/
Abstract

The embryonic self-renewal factor SALL4 has been implicated in the development of human acute myeloid leukemia (AML). Transgenic mice expressing the human SALL4B allele develop AML, which indicates that this molecule contributes to leukemia development and maintenance. However, the underlying mechanism of SALL4-dependent AML progression is unknown. Using SALL4B transgenic mice, we observed that HoxA9 was significantly upregulated in SALL4B leukemic cells compared with wild-type controls. Downregulation of HoxA9 in SALL4B leukemic cells led to decreased replating capacity in vitro and delayed AML development in recipient mice. In primary human AML cells, downregulation of SALL4 led to decreased HOXA9 expression and enhanced apoptosis. We found that SALL4 bound a specific region of the HOXA9 promoter in leukemic cells. SALL4 overexpression led to enhanced binding of histone activation markers at the HOXA9 promoter region, as well as increased HOXA9 expression in these cells. Furthermore, we observed that SALL4 interacted with mixed-lineage leukemia (MLL) and co-occupied the HOXA9 promoter region with MLL in AML leukemic cells, which suggests that a SALL4/MLL pathway may control HOXA9 expression. In summary, our findings revealed a molecular mechanism for SALL4 function in leukemogenesis and suggest that targeting of the SALL4/MLL/HOXA9 pathway would be an innovative approach in treating AML.

摘要

胚胎自我更新因子 SALL4 已被牵连到人类急性髓细胞性白血病 (AML) 的发展中。表达人 SALL4B 等位基因的转基因小鼠会发展为 AML,这表明该分子有助于白血病的发展和维持。然而,SALL4 依赖性 AML 进展的潜在机制尚不清楚。我们利用 SALL4B 转基因小鼠发现,与野生型对照相比,SALL4B 白血病细胞中 HoxA9 的表达显著上调。下调 SALL4B 白血病细胞中的 HoxA9 会导致体外 replating 能力下降,并延迟受者小鼠 AML 的发展。在原发性人 AML 细胞中,下调 SALL4 会导致 HOXA9 表达减少和凋亡增加。我们发现 SALL4 在白血病细胞中结合 HOXA9 启动子的特定区域。SALL4 的过表达导致组蛋白激活标记物在 HOXA9 启动子区域的结合增强,以及这些细胞中 HOXA9 表达的增加。此外,我们观察到 SALL4 与混合谱系白血病 (MLL) 相互作用,并在 AML 白血病细胞中与 MLL 共同占据 HOXA9 启动子区域,这表明 SALL4/MLL 途径可能控制 HOXA9 的表达。总之,我们的研究结果揭示了 SALL4 在白血病发生中的功能的分子机制,并表明靶向 SALL4/MLL/HOXA9 途径将是治疗 AML 的一种创新方法。

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