葡萄糖饥饿通过阻断组蛋白乙酰化选择性地损害肿瘤细胞中的 DNA 修复。

Glucose starvation impairs DNA repair in tumour cells selectively by blocking histone acetylation.

机构信息

Division of Radiation Biology & Molecular Environmental Research, Dept. of Radiation Oncology, University of Tuebingen, Germany; German Cancer Consortium (DKTK), partner site Tuebingen, and German Cancer Research Center (DKFZ) Heidelberg, Germany.

Division of Clinical Psychology & Biological Psychology and Psychotherapy, Dept. of Otto-Selz-Institute of Applied Psychology, University of Mannheim, Germany; Division of Media Management & Advertising Psychology, Dept. of Economics & Law, University of Pforzheim, Germany.

出版信息

Radiother Oncol. 2018 Mar;126(3):465-470. doi: 10.1016/j.radonc.2017.10.020. Epub 2017 Oct 31.

DOI:10.1016/j.radonc.2017.10.020

PMID:29100699

Abstract

BACKGROUND AND PURPOSE

Tumour cells are characterized by aerobic glycolysis and thus have high glucose consumption. Because repairing radiation-induced DNA damage is an energy-demanding process, we hypothesized that glucose starvation combined with radiotherapy could be an effective strategy to selectively target tumour cells.

MATERIAL AND METHODS

We glucose-starved tumour cells (A549, FaDu) in vitro and analysed their radiation-induced cell responses compared to normal fibroblasts (HSF7).

RESULTS

Irradiation depleted intracellular ATP levels preferentially in cancer cells. Consequently, glucose starvation impaired DNA double-strand break (DSB) repair and radiosensitized confluent tumour cells but not normal fibroblasts. In proliferating tumour cells glucose starvation resulted in a reduction of proliferation, but failed to radiosensitize cells. Glucose supply was indispensable during the late DSB repair in confluent tumour cells starting approximately 13 h after irradiation, and glucose starvation inhibited radiation-induced histone acetylation, which is essential for chromatin relaxation. Sirtinol - an inhibitor of histone deacetylases - reverted the effects of glucose depletion on histone acetylation and DNA DSB repair in tumour cells. Furthermore, a glucose concentration of 2.8 mmol/L was sufficient to impair DSB repair in tumour cells and reduced their clonogenic survival under a fractionated irradiation regimen.

CONCLUSIONS

In resting tumour cells, glucose starvation combined with irradiation resulted in the impairment of late DSB repair and the reduction of clonogenic survival, which was associated with disrupted radiation-induced histone acetylation. However, in normal cells, DNA repair and radiosensitivity were not affected by glucose depletion.

摘要

背景与目的

肿瘤细胞的特征是有氧糖酵解，因此具有高葡萄糖消耗。由于修复辐射诱导的 DNA 损伤是一个能量消耗过程，我们假设葡萄糖饥饿联合放疗可能是一种选择性靶向肿瘤细胞的有效策略。

材料与方法

我们在体外使肿瘤细胞（A549、FaDu）发生葡萄糖饥饿，并分析其与正常成纤维细胞（HSF7）相比的辐射诱导细胞反应。

结果

照射优先耗尽了癌细胞内的 ATP 水平。因此，葡萄糖饥饿会损害 DNA 双链断裂（DSB）修复，并使致密肿瘤细胞（而非正常成纤维细胞）放射增敏。在增殖的肿瘤细胞中，葡萄糖饥饿导致增殖减少，但未能使细胞放射增敏。在照射后约 13 小时开始，致密肿瘤细胞中的晚期 DSB 修复需要葡萄糖供应，葡萄糖饥饿抑制了辐射诱导的组蛋白乙酰化，这对于染色质松弛至关重要。Sirtinol——一种组蛋白去乙酰化酶抑制剂——逆转了葡萄糖耗竭对肿瘤细胞中组蛋白乙酰化和 DNA DSB 修复的影响。此外，葡萄糖浓度为 2.8mmol/L 即可损害肿瘤细胞中的 DSB 修复，并降低其在分割照射方案下的集落存活能力。

结论

在静止的肿瘤细胞中，葡萄糖饥饿联合照射导致晚期 DSB 修复受损和集落存活减少，这与辐射诱导的组蛋白乙酰化中断有关。然而，在正常细胞中，DNA 修复和放射敏感性不受葡萄糖耗竭的影响。

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葡萄糖饥饿通过阻断组蛋白乙酰化选择性地损害肿瘤细胞中的 DNA 修复。

Glucose starvation impairs DNA repair in tumour cells selectively by blocking histone acetylation.

机构信息

出版信息

BACKGROUND AND PURPOSE

MATERIAL AND METHODS

RESULTS

CONCLUSIONS

背景与目的

材料与方法

结果

结论

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