用机器学习驱动的网络方法揭示急性髓细胞和淋巴细胞白血病的低维、基于mir的特征。

Convergent science physical oncology Pub Date : 2015-12-01 Epub Date: 2015-12-21 DOI:10.1088/2057-1739/1/2/025002
Julián Candia, Srujana Cherukuri, Yin Guo, Kshama A Doshi, Jayanth R Banavar, Curt I Civin, Wolfgang Losert
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引用次数: 9

摘要

不同急性白血病之间复杂的表型差异不能通过一次分析单个分子(如miR)的表达水平来完全捕获,而是需要对大量miR进行系统分析。虽然分析这些数据集的常用方法是主成分分析(PCA),但这种方法并不是设计来最佳区分不同表型的。此外,PCA和其他低维表示方法产生所有测量的mir的线性或非线性组合。在AML, B-ALL和TALL细胞系和患者RNA样本中测量全球人miR表达。通过系统地将支持向量机应用于二组和三组中所有测量的miR,我们使用细胞系数据构建了miR网络,并通过主要患者样本验证了我们的发现。已知作为急性白血病肿瘤抑制因子的所有协调转录的miR-23a簇成员(也包括miR-24和miR-27a)都出现在AML、B-ALL和T-ALL中心网络中。随后的qRT-PCR分析显示,在B-ALL中心网络中连接最紧密的miR-708在B-ALL中高度特异性表达,这表明miR-708可能作为B-ALL的生物标志物。这种方法是系统的、定量的、可扩展的和公正的。我们的方法产生了一个反映生物信号通路冗余性的信号网络,而不是一个单一的信号。网络表示允许专家对所有签名进行可视化分析,并为将来集成其他信息提供支持。此外,每个特征只涉及小组miRs,如二联体和三联体,这非常适合通过实验室实验进行深入验证。特别是,用于驱动白血病细胞存活、增殖和分化变化的功能失得分析将受益于白血病亚型及其正常对应细胞的多mir特征识别。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Uncovering low-dimensional, miR-based signatures of acute myeloid and lymphoblastic leukemias with a machine-learning-driven network approach.

Complex phenotypic differences among different acute leukemias cannot be fully captured by analyzing the expression levels of one single molecule, such as a miR, at a time, but requires systematic analysis of large sets of miRs. While a popular approach for analysis of such datasets is principal component analysis (PCA), this method is not designed to optimally discriminate different phenotypes. Moreover, PCA and other low-dimensional representation methods yield linear or non-linear combinations of all measured miRs. Global human miR expression was measured in AML, B-ALL, and TALL cell lines and patient RNA samples. By systematically applying support vector machines to all measured miRs taken in dyad and triad groups, we built miR networks using cell line data and validated our findings with primary patient samples. All the coordinately transcribed members of the miR-23a cluster (which includes also miR-24 and miR-27a), known to function as tumor suppressors of acute leukemias, appeared in the AML, B-ALL and T-ALL centric networks. Subsequent qRT-PCR analysis showed that the most connected miR in the B-ALL-centric network, miR-708, is highly and specifically expressed in B-ALLs, suggesting that miR-708 might serve as a biomarker for B-ALL. This approach is systematic, quantitative, scalable, and unbiased. Rather than a single signature, our approach yields a network of signatures reflecting the redundant nature of biological signaling pathways. The network representation allows for visual analysis of all signatures by an expert and for future integration of additional information. Furthermore, each signature involves only small sets of miRs, such as dyads and triads, which are well suited for in depth validation through laboratory experiments. In particular, loss-and gain-of-function assays designed to drive changes in leukemia cell survival, proliferation and differentiation will benefit from the identification of multi-miR signatures that characterize leukemia subtypes and their normal counterpart cells of origin.

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