癌症的体细胞进化
生物
淋巴细胞白血病
遗传学
克隆选择
选择(遗传算法)
癌症研究
白血病
基因
免疫学
人工智能
计算机科学
作者
Joachim Kunz,Tobias Rausch,Obul Reddy Bandapalli,June Eilers,Paulina Richter-Pechańska,S. Schuessele,Yassen Assenov,Adrian M. Stütz,Renate Kirschner‐Schwabe,Jana Hof,Cornelia Eckert,A von Stackelberg,M. Schrappe,M. Stanulla,Rolf Koehler,Smadar Avigad,Sarah Elitzur,Rupert Handgretinger,Vladimı́r Beneš,Joachim Weischenfeldt,Jan O. Korbel,Martina U. Muckenthaler,Andreas E. Kulozik
出处
期刊:Haematologica
[Ferrata Storti Foundation]
日期:2015-08-20
卷期号:100 (11): 1442-1450
被引量:71
标识
DOI:10.3324/haematol.2015.129692
摘要
Relapsed precursor T-cell acute lymphoblastic leukemia is characterized by resistance against chemotherapy and is frequently fatal. We aimed at understanding the molecular mechanisms resulting in relapse of T-cell acute lymphoblastic leukemia and analyzed 13 patients at first diagnosis, remission and relapse by whole exome sequencing, targeted ultra-deep sequencing, multiplex ligation dependent probe amplification and DNA methylation array. Compared to primary T-cell acute lymphoblastic leukemia, in relapse the number of single nucleotide variants and small insertions and deletions approximately doubled from 11.5 to 26. Targeted ultra-deep sequencing sensitively detected subclones that were selected for in relapse. The mutational pattern defined two types of relapses. While both are characterized by selection of subclones and acquisition of novel mutations, ‘type 1’ relapse derives from the primary leukemia whereas ‘type 2’ relapse originates from a common pre-leukemic ancestor. Relapse-specific changes included activation of the nucleotidase NT5C2 resulting in resistance to chemotherapy and mutations of epigenetic modulators, exemplified by SUZ12, WHSC1 and SMARCA4. While mutations present in primary leukemia and in relapse were enriched for known drivers of leukemia, relapse-specific changes revealed an association with general cancer-promoting mechanisms. This study thus identifies mechanisms that drive progression of pediatric T-cell acute lymphoblastic leukemia to relapse and may explain the characteristic treatment resistance of this condition.
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