1] Clinical and Experimental Pathology, Research Center Borstel, Borstel, Germany [2] Airway Research Center North (ARCN), Member of the German Center for Lung Research (DZL), Grosshansdorf, Germany.
Institute of Human Genetics, Christian-Albrechts-University Kiel and University Hospital Schleswig-Holstein, Kiel, Germany.
Lab Invest. 2014 Aug;94(8):927-33. doi: 10.1038/labinvest.2014.79. Epub 2014 Jun 16.
Alterations in the DNA methylome are characteristic for numerous diseases and a typical hallmark of cancer. Therefore, DNA methylation is currently under investigation in research labs and has also entered diagnostics. Recently, protocols like the BeadChip technology have become commercially available to study DNA methylation in an array format and semiquantitative fashion. However, it is known that fixation of the sample material with formalin prior to BeadChip analysis can affect the results. In this study we compared the influence of fixation on the outcome of BeadChip analysis. From six patients each a lung cancer tissue sample and a corresponding tumor-free lung tissue sample were collected. The samples were separated into three pieces. One piece of each sample was fixed with formalin, another one by the non-cross-linking HOPE technique (Hepes-glutamic acid buffer mediated Organic solvent Protection Effect). Subsequently, both became paraffin embedded. As a reference, the remaining third piece was cryopreserved. In addition we used three adenocarcinoma cell lines (H838, A549, and H1650) to validate the results from patient tissues. We show that using the HOPE technique instead of formalin largely prevents the introduction of formalin-fixation related artifacts. An ANOVA analysis significantly separated HOPE- and cryopreserved from formalin-fixed samples (FDR<0.05), while differences in the methylation data obtained from HOPE-fixed and cryopreserved material were minor. Consequently, HOPE fixation is superior to formalin fixation if a subsequent BeadChip analysis of paraffin-embedded sample material is intended.
DNA 甲基化组的改变是许多疾病的特征,也是癌症的典型标志。因此,DNA 甲基化目前正在研究实验室中进行研究,并已进入诊断领域。最近,像 BeadChip 技术这样的方案已经商业化,可以以阵列格式和半定量方式研究 DNA 甲基化。然而,众所周知,在进行 BeadChip 分析之前,用福尔马林固定样本材料会影响结果。在这项研究中,我们比较了固定对 BeadChip 分析结果的影响。从 6 名患者中,每位患者采集了一个肺癌组织样本和一个相应的无肿瘤肺组织样本。将这些样本分为 3 份。每份样本的一份用福尔马林固定,另一份用非交联 HOPE 技术(Hepes-谷氨酸缓冲液介导的有机溶剂保护效应)固定。随后,两者都被石蜡包埋。作为参考,其余的第三份被冷冻保存。此外,我们还使用了三种肺腺癌细胞系(H838、A549 和 H1650)来验证来自患者组织的结果。我们表明,使用 HOPE 技术而不是福尔马林在很大程度上防止了引入与福尔马林固定相关的伪影。ANOVA 分析显著地区分了 HOPE 和冷冻保存与福尔马林固定的样本(FDR<0.05),而从 HOPE 固定和冷冻保存材料中获得的甲基化数据的差异较小。因此,如果计划对石蜡包埋的样本材料进行后续的 BeadChip 分析,HOPE 固定优于福尔马林固定。
