Center for Genomic Science of IIT@SEMM, Istituto Italiano di Tecnologia, Milan, Italy.
Department of Experimental Oncology, European Institute of Oncology, Milan, Italy.
Leukemia. 2017 Sep;31(9):1975-1986. doi: 10.1038/leu.2016.386. Epub 2016 Dec 27.
It has been shown that individual acute myeloid leukemia (AML) patients are characterized by one of few initiating DNA mutations and 5-10 cooperating mutations not yet defined among hundreds identified by massive sequencing of AML genomes. We report an in vivo insertional-mutagenesis screen for genes cooperating with one AML initiating mutations (PML-RARA, oncogene of acute promyelocytic leukemia, APL), which allowed identification of hundreds of genetic cooperators. The cooperators are mutated at low frequency in APL or AML patients but are always abnormally expressed in a cohort of 182 APLs and AMLs analyzed. These deregulations appear non-randomly distributed and present in all samples, regardless of their associated genomic mutations. Reverse-engineering approaches showed that these cooperators belong to a single transcriptional gene network, enriched in genes mutated in AMLs, where perturbation of single genes modifies expression of others. Their gene-ontology analysis showed enrichment of genes directly involved in cell proliferation control. Therefore, the pool of PML-RARA cooperating mutations appears large and heterogeneous, but functionally equivalent and deregulated in the majority of APLs and AMLs. Our data suggest that the high heterogeneity of DNA mutations in APLs and AMLs can be reduced to patterns of gene expression deregulation of a single 'mutated' gene network.
已经表明,少数个体急性髓系白血病(AML)患者的特征是存在一个启动性 DNA 突变和 5-10 个尚未定义的合作突变,这些突变是通过对 AML 基因组进行大规模测序而发现的数百个突变中的一部分。我们报告了一种针对与 AML 起始突变(PML-RARA,急性早幼粒细胞白血病的致癌基因,APL)合作的基因的体内插入诱变筛选,该筛选允许鉴定数百个遗传合作因子。这些合作因子在 APL 或 AML 患者中以低频率发生突变,但在分析的 182 例 APL 和 AML 中总是异常表达。这些失调似乎是非随机分布的,并且存在于所有样本中,无论其相关的基因组突变如何。反向工程方法表明,这些合作因子属于一个单一的转录基因网络,富含在 AML 中发生突变的基因,其中单个基因的扰动会改变其他基因的表达。它们的基因本体分析表明,它们富集了直接参与细胞增殖控制的基因。因此,PML-RARA 合作突变的池似乎很大且具有异质性,但在大多数 APL 和 AML 中都功能失调且失调。我们的数据表明,APL 和 AML 中 DNA 突变的高度异质性可以简化为单个“突变”基因网络的基因表达失调模式。
