DNA demethylation triggers cell free DNA release in colorectal cancer cells.

IF 10.4 1区 生物学 Q1 GENETICS & HEREDITY
Valeria Pessei, Marco Macagno, Elisa Mariella, Noemi Congiusta, Vittorio Battaglieri, Paolo Battuello, Marco Viviani, Giulia Gionfriddo, Simona Lamba, Annalisa Lorenzato, Daniele Oddo, Fariha Idrees, Alessandro Cavaliere, Alice Bartolini, Simonetta Guarrera, Michael Linnebacher, Laura Monteonofrio, Luca Cardone, Michele Milella, Andrea Bertotti, Silvia Soddu, Elena Grassi, Giovanni Crisafulli, Alberto Bardelli, Ludovic Barault, Federica Di Nicolantonio
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引用次数: 0

Abstract

Background: Liquid biopsy based on cell-free DNA (cfDNA) analysis holds significant promise as a minimally invasive approach for the diagnosis, genotyping, and monitoring of solid malignancies. Human tumors release cfDNA in the bloodstream through a combination of events, including cell death, active and passive release. However, the precise mechanisms leading to cfDNA shedding remain to be characterized. Addressing this question in patients is confounded by several factors, such as tumor burden extent, anatomical and vasculature barriers, and release of nucleic acids from normal cells. In this work, we exploited cancer models to dissect basic mechanisms of DNA release.

Methods: We measured cell loss ratio, doubling time, and cfDNA release in the supernatant of a colorectal cancer (CRC) cell line collection (N = 76) representative of the molecular subtypes previously identified in cancer patients. Association analyses between quantitative parameters of cfDNA release, cell proliferation, and molecular features were evaluated. Functional experiments were performed to test the impact of modulating DNA methylation on cfDNA release.

Results: Higher levels of supernatant cfDNA were significantly associated with slower cell cycling and increased cell death. In addition, a higher cfDNA shedding was found in non-CpG Island Methylator Phenotype (CIMP) models. These results indicate a positive correlation between lower methylation and increased cfDNA levels. To explore this further, we exploited methylation microarrays to identify a subset of probes significantly associated with cfDNA shedding and derive a methylation signature capable of discriminating high from low cfDNA releasers. We applied this signature to an independent set of 176 CRC cell lines and patient derived organoids to select 14 models predicted to be low or high releasers. The methylation profile successfully predicted the amount of cfDNA released in the supernatant. At the functional level, genetic ablation of DNA methyl-transferases increased chromatin accessibility and DNA fragmentation, leading to increased cfDNA release in isogenic CRC cell lines. Furthermore, in vitro treatment of five low releaser CRC cells with a demethylating agent was able to induce a significant increase in cfDNA shedding.

Conclusions: Methylation status of cancer cell lines contributes to the variability of cfDNA shedding in vitro. Changes in methylation pattern are associated with cfDNA release levels and might be exploited to increase sensitivity of liquid biopsy assays.

DNA 去甲基化引发结直肠癌细胞释放游离 DNA。
背景:基于细胞游离 DNA(cfDNA)分析的液体活检是诊断、基因分型和监测实体恶性肿瘤的一种微创方法,前景广阔。人类肿瘤会通过细胞死亡、主动和被动释放等多种方式在血液中释放 cfDNA。然而,导致 cfDNA 脱落的确切机制仍有待确定。在患者体内解决这一问题受到多种因素的影响,如肿瘤负荷程度、解剖和血管障碍以及正常细胞释放核酸等。在这项工作中,我们利用癌症模型来剖析 DNA 释放的基本机制:方法:我们测量了结直肠癌(CRC)细胞系(N = 76)上清液中的细胞丢失率、倍增时间和 cfDNA 释放量,这些细胞系代表了之前在癌症患者中发现的分子亚型。评估了 cfDNA 释放的定量参数、细胞增殖和分子特征之间的关联分析。还进行了功能实验,以检验调节 DNA 甲基化对 cfDNA 释放的影响:结果:上清液中较高水平的 cfDNA 与细胞周期减慢和细胞死亡增加有明显关联。此外,在非 CpG 岛甲基化表型(CIMP)模型中也发现了较高的 cfDNA 脱落率。这些结果表明,较低的甲基化水平与较高的 cfDNA 水平之间存在正相关。为了进一步探讨这一问题,我们利用甲基化微阵列鉴定了与 cfDNA 脱落显著相关的探针子集,并得出了能够区分高低 cfDNA 释放者的甲基化特征。我们将该特征应用于一组独立的 176 个 CRC 细胞系和患者衍生的器官组织,筛选出 14 个预测为低或高释放者的模型。甲基化特征成功地预测了上清液中释放的 cfDNA 数量。在功能层面上,DNA甲基转移酶的基因消减增加了染色质的可及性和DNA片段化,导致同源 CRC 细胞系中 cfDNA 的释放量增加。此外,用去甲基化剂体外处理五种低释放率的 CRC 细胞,也能诱导 cfDNA 脱落的显著增加:结论:癌细胞系的甲基化状态导致了体外 cfDNA 脱落的可变性。甲基化模式的变化与 cfDNA 释放水平有关,可用于提高液体活检测定的灵敏度。
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来源期刊
Genome Medicine
Genome Medicine GENETICS & HEREDITY-
CiteScore
20.80
自引率
0.80%
发文量
128
审稿时长
6-12 weeks
期刊介绍: Genome Medicine is an open access journal that publishes outstanding research applying genetics, genomics, and multi-omics to understand, diagnose, and treat disease. Bridging basic science and clinical research, it covers areas such as cancer genomics, immuno-oncology, immunogenomics, infectious disease, microbiome, neurogenomics, systems medicine, clinical genomics, gene therapies, precision medicine, and clinical trials. The journal publishes original research, methods, software, and reviews to serve authors and promote broad interest and importance in the field.
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