Nucleosome reorganisation in breast cancer tissues.

IF 5.4 3区 材料科学 Q2 CHEMISTRY, PHYSICAL
Divya R Jacob, Wilfried M Guiblet, Hulkar Mamayusupova, Mariya Shtumpf, Isabella Ciuta, Luminita Ruje, Svetlana Gretton, Milena Bikova, Clark Correa, Emily Dellow, Shivam P Agrawal, Navid Shafiei, Anastasija Drobysevskaja, Chris M Armstrong, Jonathan D G Lam, Yevhen Vainshtein, Christopher T Clarkson, Graeme J Thorn, Kai Sohn, Madapura M Pradeepa, Sankaran Chandrasekharan, Greg N Brooke, Elena Klenova, Victor B Zhurkin, Vladimir B Teif
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Abstract

Background: Nucleosome repositioning in cancer is believed to cause many changes in genome organisation and gene expression. Understanding these changes is important to elucidate fundamental aspects of cancer. It is also important for medical diagnostics based on cell-free DNA (cfDNA), which originates from genomic DNA regions protected from digestion by nucleosomes.

Results: We have generated high-resolution nucleosome maps in paired tumour and normal tissues from the same breast cancer patients using MNase-assisted histone H3 ChIP-seq and compared them with the corresponding cfDNA from blood plasma. This analysis has detected single-nucleosome repositioning at key regulatory regions in a patient-specific manner and common cancer-specific patterns across patients. The nucleosomes gained in tumour versus normal tissue were particularly informative of cancer pathways, with ~ 20-fold enrichment at CpG islands, a large fraction of which marked promoters of genes encoding DNA-binding proteins. The tumour tissues were characterised by a 5-10 bp decrease in the average distance between nucleosomes (nucleosome repeat length, NRL), which is qualitatively similar to the differences between pluripotent and differentiated cells. This effect was correlated with gene activity, differential DNA methylation and changes in local occupancy of linker histone variants H1.4 and H1X.

Conclusions: Our study offers a novel resource of high-resolution nucleosome maps in breast cancer patients and reports for the first time the effect of systematic decrease of NRL in paired tumour versus normal breast tissues from the same patient. Our findings provide a new mechanistic understanding of nucleosome repositioning in tumour tissues that can be valuable for patient diagnostics, stratification and monitoring.

乳腺癌组织中的核小体重组
背景:癌症中的核小体重新定位被认为会导致基因组的组织和基因表达发生许多变化。了解这些变化对于阐明癌症的基本方面非常重要。这对基于无细胞DNA(cfDNA)的医学诊断也很重要,无细胞DNA来自基因组DNA区域,受到核糖体的保护而不被消化:结果:我们利用 MNase 辅助组蛋白 H3 ChIP-seq 技术在同一乳腺癌患者的成对肿瘤组织和正常组织中生成了高分辨率核小体图,并将其与血浆中相应的 cfDNA 进行了比较。这项分析以患者特异性的方式检测到了关键调控区域的单核糖体重新定位,以及不同患者之间常见的癌症特异性模式。与正常组织相比,肿瘤组织中获得的核小体对癌症通路特别有参考价值,CpG岛富集了约20倍,其中很大一部分标志着编码DNA结合蛋白的基因启动子。肿瘤组织的特点是核小体之间的平均距离(核小体重复长度,NRL)减少了 5-10 bp,这与多能细胞和分化细胞之间的差异在性质上相似。这种效应与基因活性、DNA甲基化差异以及连接组蛋白变体H1.4和H1X的局部占有率变化相关:我们的研究为乳腺癌患者的高分辨率核糖体图提供了新的资源,并首次报道了同一患者的成对肿瘤组织与正常乳腺组织中 NRL 系统性下降的影响。我们的研究结果提供了对肿瘤组织中核糖体重新定位的新的机理认识,这对患者的诊断、分层和监测很有价值。
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来源期刊
ACS Applied Energy Materials
ACS Applied Energy Materials Materials Science-Materials Chemistry
CiteScore
10.30
自引率
6.20%
发文量
1368
期刊介绍: ACS Applied Energy Materials is an interdisciplinary journal publishing original research covering all aspects of materials, engineering, chemistry, physics and biology relevant to energy conversion and storage. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important energy applications.
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