采用高分辨率单核苷酸多态性寡核苷酸基因组微阵列对儿童急性淋巴细胞白血病进行分子等位基因核型分析。

Molecular allelokaryotyping of pediatric acute lymphoblastic leukemias by high-resolution single nucleotide polymorphism oligonucleotide genomic microarray.

作者信息

Kawamata Norihiko, Ogawa Seishi, Zimmermann Martin, Kato Motohiro, Sanada Masashi, Hemminki Kari, Yamatomo Go, Nannya Yasuhito, Koehler Rolf, Flohr Thomas, Miller Carl W, Harbott Jochen, Ludwig Wolf-Dieter, Stanulla Martin, Schrappe Martin, Bartram Claus R, Koeffler H Phillip

机构信息

Department of Hematology, Oncology, Cedars-Sinai Medical Center/University of California at Los Angeles School of Medicine 90048, USA.

出版信息

Blood. 2008 Jan 15;111(2):776-84. doi: 10.1182/blood-2007-05-088310. Epub 2007 Sep 21.

DOI:10.1182/blood-2007-05-088310

PMID:17890455

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2200831/

Abstract

Pediatric acute lymphoblastic leukemia (ALL) is a malignant disease resulting from accumulation of genetic alterations. A robust technology, single nucleotide polymorphism oligonucleotide genomic microarray (SNP-chip) in concert with bioinformatics offers the opportunity to discover the genetic lesions associated with ALL. We examined 399 pediatric ALL samples and their matched remission marrows at 50,000/250,000 SNP sites using an SNP-chip platform. Correlations between genetic abnormalities and clinical features were examined. Three common genetic alterations were found: deletion of ETV6, deletion of p16INK4A, and hyperdiploidy, as well as a number of novel recurrent genetic alterations. Uniparental disomy (UPD) was a frequent event, especially affecting chromosome 9. A cohort of children with hyperdiploid ALL without gain of chromosomes 17 and 18 had a poor prognosis. Molecular allelokaryotyping is a robust tool to define small genetic abnormalities including UPD, which is usually overlooked by standard methods. This technique was able to detect subgroups with a poor prognosis based on their genetic status.

摘要

小儿急性淋巴细胞白血病（ALL）是一种由基因改变积累导致的恶性疾病。一种强大的技术，即单核苷酸多态性寡核苷酸基因组微阵列（SNP芯片）与生物信息学相结合，为发现与ALL相关的基因损伤提供了机会。我们使用SNP芯片平台在50,000/250,000个SNP位点检测了399份小儿ALL样本及其匹配的缓解期骨髓。研究了基因异常与临床特征之间的相关性。发现了三种常见的基因改变：ETV6缺失、p16INK4A缺失和超二倍体，以及一些新的复发性基因改变。单亲二体（UPD）是一种常见事件，尤其影响9号染色体。一组超二倍体ALL且未获得17号和18号染色体的儿童预后较差。分子等位基因核型分析是定义包括UPD在内的小基因异常的强大工具，而UPD通常会被标准方法忽视。该技术能够根据其基因状态检测出预后较差的亚组。

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