TP53基因的突变影响了53BP1蛋白向DNA损伤部位的募集，但在γ射线照射使特定TP53突变体中的MDC1蛋白耗竭后，53BP1的水平保持稳定。

Mutations in the TP53 gene affected recruitment of 53BP1 protein to DNA lesions, but level of 53BP1 was stable after γ-irradiation that depleted MDC1 protein in specific TP53 mutants.

作者信息

Suchánková Jana, Legartová Soňa, Ručková Eva, Vojtěšek Bořivoj, Kozubek Stanislav, Bártová Eva

机构信息

Institute of Biophysics, Academy of Sciences of the Czech Republic, v.v.i., Královopolská 135, 612 00, Brno, Czech Republic.

Masaryk Memorial Cancer Institute, Žlutý kopec 543/7, 656 53, Brno, Czech Republic.

出版信息

Histochem Cell Biol. 2017 Sep;148(3):239-255. doi: 10.1007/s00418-017-1567-3. Epub 2017 Apr 10.

DOI:10.1007/s00418-017-1567-3

PMID:28397142

Abstract

53BP1 is a very well-known protein that is recruited to DNA lesions. The focal accumulation of p53 binding protein, 53BP1, is a main feature indicating the repair of spontaneous or irradiation-induced foci (IRIF). Thus, here, we addressed the question of whether mutations in the TP53 gene, which often affect the level of p53 protein, can change the recruitment of 53BP1 to γ- or UVA-irradiated chromatin. In various TP53 mutants, we observed a distinct accumulation of 53BP1 protein to UV-induced DNA lesions: in R273C mutants, 53BP1 appeared transiently at DNA lesions, during 10-30 min after irradiation; the mutation R282W was responsible for accumulation of 53BP1 immediately after UVA-damage; and in L194F mutants, the first appearance of 53BP1 protein at the lesions occurred during 60-70 min. These results showed that specific mutations in the TP53 gene stand behind not only different levels of p53 protein, but also affect the localized kinetics of 53BP1 protein in UVA-damaged chromatin. However, after γ-irradiation, only G245S mutation in TP53 gene was associated with surprisingly decreased level of 53BP1 protein. In other mutant cell lines, levels of 53BP1 were not affected by γ-rays. To these effects, we conversely found a distinct number of 53BP1-positive irradiation-induced foci in various TP53 mutants. The R280K, G245S, L194F mutations, or TP53 deletion were also characterized by radiation-induced depletion in MDC1 protein. Moreover, in mutant cells, an interaction between MDC1 and 53BP1 proteins was abrogated when compared with wild-type counterpart. Together, the kinetics of 53BP1 accumulation at UV-induced DNA lesions is different in various TP53 mutant cells. After γ-irradiation, despite changes in a number and a volume of 53BP1-positive foci, levels of 53BP1 protein were relatively stable. Here, we showed a link between the status of MDC1 protein and TP53 gene, which specific mutations caused radiation-induced MDC1 down-regulation. This observation is significant, especially with regard to radiotherapy of tumors with abrogated function of TP53 gene.

摘要

53BP1是一种广为人知的被招募到DNA损伤部位的蛋白质。p53结合蛋白53BP1的灶性聚集是指示自发或辐射诱导灶（IRIF）修复的主要特征。因此，在此我们探讨了经常影响p53蛋白水平的TP53基因突变是否会改变53BP1向γ射线或紫外线（UVA）照射的染色质的募集。在各种TP53突变体中，我们观察到53BP1蛋白在紫外线诱导的DNA损伤部位有明显聚集：在R273C突变体中，53BP1在照射后10 - 30分钟内短暂出现在DNA损伤部位；R282W突变导致UVA损伤后53BP1立即聚集；而在L194F突变体中，53BP1蛋白在损伤部位首次出现的时间为60 - 70分钟。这些结果表明，TP53基因中的特定突变不仅导致p53蛋白水平不同，还会影响53BP1蛋白在UVA损伤染色质中的定位动力学。然而，γ射线照射后，只有TP53基因中的G245S突变与53BP1蛋白水平意外降低有关。在其他突变细胞系中，53BP1的水平不受γ射线影响。相反，我们发现在各种TP53突变体中有数量明显不同的53BP1阳性辐射诱导灶。R280K、G245S、L194F突变或TP53缺失也表现为辐射诱导的MDC1蛋白减少。此外，与野生型相比，突变细胞中MDC1和53BP1蛋白之间的相互作用被消除。总之，53BP1在紫外线诱导的DNA损伤部位聚集的动力学在各种TP53突变细胞中有所不同。γ射线照射后，尽管53BP1阳性灶的数量和体积发生了变化，但53BP1蛋白水平相对稳定。在此，我们展示了MDC1蛋白状态与TP53基因之间的联系，即特定突变导致辐射诱导的MDC1下调。这一观察结果具有重要意义，特别是对于TP53基因功能缺失的肿瘤的放射治疗而言。

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TP53基因的突变影响了53BP1蛋白向DNA损伤部位的募集，但在γ射线照射使特定TP53突变体中的MDC1蛋白耗竭后，53BP1的水平保持稳定。

Mutations in the TP53 gene affected recruitment of 53BP1 protein to DNA lesions, but level of 53BP1 was stable after γ-irradiation that depleted MDC1 protein in specific TP53 mutants.

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