Bhojwani Deepa, Kang Huining, Menezes Renee X, Yang Wenjian, Sather Harland, Moskowitz Naomi P, Min Dong-Joon, Potter Jeffrey W, Harvey Richard, Hunger Stephen P, Seibel Nita, Raetz Elizabeth A, Pieters Rob, Horstmann Martin A, Relling Mary V, den Boer Monique L, Willman Cheryl L, Carroll William L
Division of Pediatric Hematology/Oncology, New York University Cancer Institute, New York University School of Medicine, New York, NY 10016, USA.
J Clin Oncol. 2008 Sep 20;26(27):4376-84. doi: 10.1200/JCO.2007.14.4519.
To identify children with acute lymphoblastic leukemia (ALL) at initial diagnosis who are at risk for inferior response to therapy by using molecular signatures.
Gene expression profiles were generated from bone marrow blasts at initial diagnosis from a cohort of 99 children with National Cancer Institute-defined high-risk ALL who were treated uniformly on the Children's Oncology Group (COG) 1961 study. For prediction of early response, genes that correlated to marrow status on day 7 were identified on a training set and were validated on a test set. An additional signature was correlated with long-term outcome, and the predictive models were validated on three large, independent patient cohorts. Results We identified a 24-probe set signature that was highly predictive of day 7 marrow status on the test set (P = .0061). Pathways were identified that may play a role in early blast regression. We have also identified a 47-probe set signature (which represents 41 unique genes) that was predictive of long-term outcome in our data set as well as three large independent data sets of patients with childhood ALL who were treated on different protocols. However, we did not find sufficient evidence for the added significance of these genes and the derived predictive models when other known prognostic features, such as age, WBC, and karyotype, were included in a multivariate analysis.
Genes and pathways that play a role in early blast regression may identify patients who may be at risk for inferior responses to treatment. A fully validated predictive gene expression signature was defined for high-risk ALL that provided insight into the biologic mechanisms of treatment failure.
通过使用分子特征来识别初诊时对治疗反应较差的急性淋巴细胞白血病(ALL)患儿。
从99名患有美国国立癌症研究所定义的高危ALL的儿童队列的初诊骨髓原始细胞中生成基因表达谱,这些儿童在儿童肿瘤学组(COG)1961研究中接受统一治疗。为了预测早期反应,在训练集上识别与第7天骨髓状态相关的基因,并在测试集上进行验证。另一个特征与长期结局相关,并且预测模型在三个大型独立患者队列中进行了验证。结果我们确定了一个24探针集特征,该特征在测试集上对第7天的骨髓状态具有高度预测性(P = 0.0061)。确定了可能在早期原始细胞消退中起作用的途径。我们还确定了一个47探针集特征(代表41个独特基因),该特征在我们的数据集中以及三个接受不同方案治疗的儿童ALL患者的大型独立数据集中对长期结局具有预测性。然而,当在多变量分析中纳入其他已知的预后特征,如年龄、白细胞计数和核型时,我们没有找到足够的证据证明这些基因和衍生的预测模型具有额外的显著性。
在早期原始细胞消退中起作用的基因和途径可能识别出对治疗反应较差的风险患者。为高危ALL定义了一个经过充分验证的预测性基因表达特征,该特征为治疗失败的生物学机制提供了见解。
