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染色质结构对电离辐射产生的DNA双链断裂程度和分布的影响;人胚胎干细胞与分化细胞系的比较研究。

Effect of Chromatin Structure on the Extent and Distribution of DNA Double Strand Breaks Produced by Ionizing Radiation; Comparative Study of hESC and Differentiated Cells Lines.

作者信息

Venkatesh Priyanka, Panyutin Irina V, Remeeva Evgenia, Neumann Ronald D, Panyutin Igor G

机构信息

Department of Radiology and Imaging Sciences, Clinical Center, National Institutes of Health, Bethesda, MD 20892, USA.

出版信息

Int J Mol Sci. 2016 Jan 2;17(1):58. doi: 10.3390/ijms17010058.

DOI:10.3390/ijms17010058
PMID:26729112
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4730303/
Abstract

Chromatin structure affects the extent of DNA damage and repair. Thus, it has been shown that heterochromatin is more protective against DNA double strand breaks (DSB) formation by ionizing radiation (IR); and that DNA DSB repair may proceed differently in hetero- and euchromatin regions. Human embryonic stem cells (hESC) have a more open chromatin structure than differentiated cells. Here, we study the effect of chromatin structure in hESC on initial DSB formation and subsequent DSB repair. DSB were scored by comet assay; and DSB repair was assessed by repair foci formation via 53BP1 antibody staining. We found that in hESC, heterochromatin is confined to distinct regions, while in differentiated cells it is distributed more evenly within the nuclei. The same dose of ionizing radiation produced considerably more DSB in hESC than in differentiated derivatives, normal human fibroblasts; and one cancer cell line. At the same time, the number of DNA repair foci were not statistically different among these cells. We showed that in hESC, DNA repair foci localized almost exclusively outside the heterochromatin regions. We also noticed that exposure to ionizing radiation resulted in an increase in heterochromatin marker H3K9me3 in cancer HT1080 cells, and to a lesser extent in IMR90 normal fibroblasts, but not in hESCs. These results demonstrate the importance of chromatin conformation for DNA protection and DNA damage repair; and indicate the difference of these processes in hESC.

摘要

染色质结构会影响DNA损伤和修复的程度。因此,已有研究表明,异染色质对电离辐射(IR)诱导的DNA双链断裂(DSB)形成具有更强的保护作用;并且DNA DSB修复在异染色质区和常染色质区可能以不同方式进行。人类胚胎干细胞(hESC)的染色质结构比分化细胞更为开放。在此,我们研究hESC中染色质结构对初始DSB形成及后续DSB修复的影响。通过彗星试验对DSB进行评分;并通过53BP1抗体染色形成修复灶来评估DSB修复情况。我们发现,在hESC中,异染色质局限于特定区域,而在分化细胞中,它在细胞核内分布更为均匀。相同剂量的电离辐射在hESC中产生的DSB比在其分化衍生物、正常人成纤维细胞以及一种癌细胞系中要多得多。同时,这些细胞中DNA修复灶的数量在统计学上并无差异。我们发现,在hESC中,DNA修复灶几乎完全定位于异染色质区域之外。我们还注意到,电离辐射暴露导致癌症HT1080细胞中异染色质标记H3K9me3增加,在IMR90正常成纤维细胞中增加程度较小,但在hESC中未出现这种情况。这些结果证明了染色质构象对于DNA保护和DNA损伤修复的重要性;并表明了这些过程在hESC中的差异。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9d24/4730303/e577c38a573e/ijms-17-00058-g006.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9d24/4730303/849b5c7870c9/ijms-17-00058-g001a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9d24/4730303/c514a55375e2/ijms-17-00058-g002a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9d24/4730303/de05c242c0c9/ijms-17-00058-g003.jpg
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