通过对急性髓系白血病基因组进行测序发现的复发性突变。
Recurring mutations found by sequencing an acute myeloid leukemia genome.
作者信息
Mardis Elaine R, Ding Li, Dooling David J, Larson David E, McLellan Michael D, Chen Ken, Koboldt Daniel C, Fulton Robert S, Delehaunty Kim D, McGrath Sean D, Fulton Lucinda A, Locke Devin P, Magrini Vincent J, Abbott Rachel M, Vickery Tammi L, Reed Jerry S, Robinson Jody S, Wylie Todd, Smith Scott M, Carmichael Lynn, Eldred James M, Harris Christopher C, Walker Jason, Peck Joshua B, Du Feiyu, Dukes Adam F, Sanderson Gabriel E, Brummett Anthony M, Clark Eric, McMichael Joshua F, Meyer Rick J, Schindler Jonathan K, Pohl Craig S, Wallis John W, Shi Xiaoqi, Lin Ling, Schmidt Heather, Tang Yuzhu, Haipek Carrie, Wiechert Madeline E, Ivy Jolynda V, Kalicki Joelle, Elliott Glendoria, Ries Rhonda E, Payton Jacqueline E, Westervelt Peter, Tomasson Michael H, Watson Mark A, Baty Jack, Heath Sharon, Shannon William D, Nagarajan Rakesh, Link Daniel C, Walter Matthew J, Graubert Timothy A, DiPersio John F, Wilson Richard K, Ley Timothy J
机构信息
Department of Genetics, Washington University, St. Louis, MO 63110, USA.
出版信息
N Engl J Med. 2009 Sep 10;361(11):1058-66. doi: 10.1056/NEJMoa0903840. Epub 2009 Aug 5.
BACKGROUND
The full complement of DNA mutations that are responsible for the pathogenesis of acute myeloid leukemia (AML) is not yet known.
METHODS
We used massively parallel DNA sequencing to obtain a very high level of coverage (approximately 98%) of a primary, cytogenetically normal, de novo genome for AML with minimal maturation (AML-M1) and a matched normal skin genome.
RESULTS
We identified 12 acquired (somatic) mutations within the coding sequences of genes and 52 somatic point mutations in conserved or regulatory portions of the genome. All mutations appeared to be heterozygous and present in nearly all cells in the tumor sample. Four of the 64 mutations occurred in at least 1 additional AML sample in 188 samples that were tested. Mutations in NRAS and NPM1 had been identified previously in patients with AML, but two other mutations had not been identified. One of these mutations, in the IDH1 gene, was present in 15 of 187 additional AML genomes tested and was strongly associated with normal cytogenetic status; it was present in 13 of 80 cytogenetically normal samples (16%). The other was a nongenic mutation in a genomic region with regulatory potential and conservation in higher mammals; we detected it in one additional AML tumor. The AML genome that we sequenced contains approximately 750 point mutations, of which only a small fraction are likely to be relevant to pathogenesis.
CONCLUSIONS
By comparing the sequences of tumor and skin genomes of a patient with AML-M1, we have identified recurring mutations that may be relevant for pathogenesis.
背景
导致急性髓细胞白血病(AML)发病机制的全部DNA突变尚未明确。
方法
我们使用大规模平行DNA测序技术,对一例细胞遗传学正常、初发的、低分化AML(AML-M1)基因组及其匹配的正常皮肤基因组进行了深度测序,覆盖率高达约98%。
结果
我们在基因编码序列中鉴定出12个获得性(体细胞)突变,在基因组的保守或调控区域鉴定出52个体细胞点突变。所有突变均为杂合子,且几乎存在于肿瘤样本的所有细胞中。在188份检测的AML样本中,64个突变中的4个至少在另外1份AML样本中出现。NRAS和NPM1基因的突变此前已在AML患者中被鉴定出来,但另外两个突变尚未被发现。其中一个突变位于IDH1基因,在另外187份检测的AML基因组中有15份存在该突变,且与细胞遗传学正常状态密切相关;在80份细胞遗传学正常的样本中有13份存在该突变(16%)。另一个是在具有调控潜能且在高等哺乳动物中保守的基因组区域中的非基因突 变;我们在另外1例AML肿瘤中检测到了该突变。我们测序的AML基因组包含约750个点突变,其中只有一小部分可能与发病机制相关。
结论
通过比较AML-M1患者的肿瘤基因组和皮肤基因组序列,我们鉴定出了可能与发病机制相关的复发性突变。
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