Abdullah Maha, Choo Chee Wei, Alias Hamidah, Abdul Rahman Eni Juraidah, Mohd Ibrahim Hishamshah, Jamal Rahman, Hussin Noor Hamidah
a Immunology Unit, Department of Pathology , UPM, Serdang , Selangor , Malaysia.
b Department of Pathology, Faculty of Medicine , UKM Medical Centre , Kuala Lumpur , Malaysia.
Hematology. 2017 Aug;22(7):386-391. doi: 10.1080/10245332.2017.1299417. Epub 2017 Mar 15.
DNA hypermethylation has been linked to poor treatment outcome in childhood acute lymphoblastic leukemia (ALL). Genes differentially methylated in the chemoresponsive pre-B-ALL compared to chemoresistant pre-B-ALL cases provide potential prognostic markers.
DNA methylation profiles of five B-ALL childhood patients who achieved morphological complete remission (chemoresponsive) and five B-ALL patients who did not (chemoresistant) after induction treatments as well as four normal controls were compared on 27 000 CpG sites microarray chips. Subsequently, methylation-specific polymerase chain reaction (MSP) on selected hypermethylated genes was conducted on an additional 37 chemoresponsive and 9 chemoresistant B-ALL samples and 2 normal controls.
Both methods were found to be highly correlated. Unsupervised principal component analysis showed that the chemotherapy-responsive and -resistant B-ALL patients could be segregated from one another. Selection of segregated genes at high stringency identified two potential genes (CDH11 and ADAMTSL5). MSP analysis on the larger cohort of samples (42 chemoresponsive, 14 chemoresistant B-ALL samples and 6 normal controls) revealed significantly higher rates of hypermethylation in chemoresistant samples for ADAMTSL5 (93 vs. 38%; p = 0.0001) and CDH11 (79% vs. 40%, p < 0.01). All control cases remained unmethylated.
Chemoresistant B-ALL patients are associated with increased methylation in ADAMTSL5 and CDH11. These findings need to be validated in a larger group of patients, and the functional biological and prognostic significance of differential methylation needs to be studied further.
DNA高甲基化与儿童急性淋巴细胞白血病(ALL)的不良治疗结局相关。与化疗耐药的前B-ALL病例相比,化疗敏感的前B-ALL中差异甲基化的基因可提供潜在的预后标志物。
在27000个CpG位点微阵列芯片上,比较了5例诱导治疗后达到形态学完全缓解(化疗敏感)的儿童B-ALL患者、5例未达到完全缓解(化疗耐药)的B-ALL患者以及4例正常对照的DNA甲基化谱。随后,对另外37例化疗敏感和9例化疗耐药的B-ALL样本以及2例正常对照进行了所选高甲基化基因的甲基化特异性聚合酶链反应(MSP)。
发现两种方法高度相关。无监督主成分分析表明,化疗敏感和耐药的B-ALL患者可以相互区分。在高严格度下选择分离的基因鉴定出两个潜在基因(CDH11和ADAMTSL5)。对更大样本队列(42例化疗敏感、14例化疗耐药的B-ALL样本和6例正常对照)的MSP分析显示,ADAMTSL5(93%对38%;p = 0.0001)和CDH11(79%对40%,p < 0.01)在化疗耐药样本中的高甲基化率显著更高。所有对照病例均未甲基化。
化疗耐药的B-ALL患者与ADAMTSL5和CDH11甲基化增加有关。这些发现需要在更大的患者群体中得到验证,并且差异甲基化的功能生物学和预后意义需要进一步研究。
