Chromosomal defects track tumor subpopulations and change in progression in oligodendroglioma.

Convergent science physical oncology Pub Date : 2015-06-16 DOI:10.1088/2057-1739/1/1/015001

David W. Nauen, Andrew Guajardo, Lisa M Haley, Kerry Powell, P. Burger, C. Gocke

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引用次数: 1

Abstract

To assess karyotypic changes and tumor subpopulations in progression of oligodendroglioma (ODG) we analyzed histologically diagnosed 1p/19q codeleted cases using single nucleotide polymorphism (SNP) microarray data. We separated cases according to grade, which was assigned blind to karyotype information beyond 1p/19q status. The 51 WHO grade II (O2) and 18 WHO grade III (O3) specimens showed frequent chromosomal locations and patterns of change including loss of heterozygosity (LOH), often copy-neutral, on 9p and LOH on 4p and 4q together. Analysis of co-occurrence indicated that most defects were independent but also suggested increased likelihood of defects on 11q, 13q, and 14q in the presence of defects on 18, 4, and 9, respectively. We used the relative degree of change in B-allele frequency as an indicator of an abnormality's extent, and we present simulated data to clarify how information on subpopulations was thus inferred. Among 9p defects, 89.3% involved the whole tumor, whereas only 47.6% of 4q defects did so. We modeled extent through the tumor as due to a karyotypic change's likelihood of occurring and the fitness it confers on its subpopulation, and used group data to estimate these values. To assess progression directly, we evaluated specimens from six patients who underwent multiple resections since 1996. Four of these patients had received no chemotherapy or radiation, permitting assessment of the natural history of the tumor karyotype in situ. Defects present throughout a tumor at first resection remained so, whereas among subpopulations, some expanded, some remained constant, and some disappeared. The rate of expansion among subpopulations that did so was not uniform, and estimates of fitness predicted subpopulation composition at recurrence. These results extend prior studies of increased karyotypic abnormality in progression of oligodendroglioma and reveal the complex dynamics of subpopulations in the tumor over time.

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染色体缺陷追踪肿瘤亚群和少突胶质细胞瘤进展的变化。

为了评估少突胶质细胞瘤(ODG)进展过程中的核型变化和肿瘤亚群，我们使用单核苷酸多态性(SNP)微阵列数据分析了组织学诊断的1p/19q编码病例。我们根据等级将病例分开，对超过1p/19q状态的核型信息进行盲分配。51例WHOⅱ级(O2)和18例WHOⅲ级(O3)标本显示染色体位置和改变模式频繁，包括9p上杂合性缺失(LOH)，通常是复制中性，4p和4q上的LOH同时缺失。对共现性的分析表明，大多数缺陷是独立的，但同时也表明，分别在18、4和9上存在缺陷时，11q、13q和14q上缺陷的可能性增加。我们使用b等位基因频率的相对变化程度作为异常程度的指标，并提供模拟数据来阐明如何推断亚种群的信息。在9p缺陷中，89.3%累及整个肿瘤，而4q缺陷只有47.6%累及整个肿瘤。我们通过肿瘤建立了由于核型变化发生的可能性及其赋予其亚群的适应性的程度模型，并使用组数据来估计这些值。为了直接评估进展，我们评估了自1996年以来接受多次手术切除的6例患者的标本。其中4例患者未接受化疗或放疗，允许原位评估肿瘤核型的自然史。第一次切除时整个肿瘤的缺陷保持不变，而在亚群中，有些扩大了，有些保持不变，有些消失了。这样做的亚种群之间的扩张速度并不均匀，并且适应度估计预测了复发时的亚种群组成。这些结果扩展了先前关于少突胶质细胞瘤进展中核型异常增加的研究，并揭示了肿瘤亚群随时间的复杂动态。

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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Convergent science physical oncology

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