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结节性硬化症的放射生物学特征:ATM 的核穿梭延迟可能是其对放射敏感的原因。

Radiobiological Characterization of Tuberous Sclerosis: a Delay in the Nucleo-Shuttling of ATM May Be Responsible for Radiosensitivity.

机构信息

Institut National de la Santé et de la Recherche Médicale, UMR1052, Radiobiology Group, Cancer Research Centre of Lyon, 69008, Lyon, France.

Centre de Recherches Nucléaires d'Alger, 2, Bd Frantz Fanon, Alger, Algeria.

出版信息

Mol Neurobiol. 2018 Jun;55(6):4973-4983. doi: 10.1007/s12035-017-0648-6. Epub 2017 Aug 7.

DOI:10.1007/s12035-017-0648-6
PMID:28786016
Abstract

The tuberous sclerosis complex (TSC) syndrome is associated with numerous cutaneous pathologies (notably on the face), epilepsy, intellectual disability and developmental retardation and, overall, high occurrence of benign tumors in several organs, like angiofibromas, giant cell astrocytomas, renal angiomyolipomas, and pulmonary lymphangioleiomyomatosis. TSC is caused by mutations of either of the hamartin or tuberin proteins that are mainly cytoplasmic. Some studies published in the 1980s reported that TSC is associated with radiosensitivity. However, its molecular basis in TSC cells is not documented enough. Here, we examined the functionality of the repair and signaling of radiation-induced DNA double-strand breaks (DSB) in fibroblasts derived from TSC patients. Quiescent TSC fibroblast cells elicited abnormally low rate of recognized DSB reflected by a low yield of nuclear foci formed by phosphorylated H2AX histones. Irradiated TSC cells also presented a delay in the nucleo-shuttling of the ATM kinase, potentially due to a specific binding of ATM to mutated TSC protein in cytoplasm. Lastly, TSC fibroblasts showed abnormally high MRE11 nuclease activity suggesting genomic instability. A combination of biphosphonates and statins complemented these impairments by facilitating the nucleoshuttling of ATM and increasing the yield of recognized DSB. Our results showed that TSC belongs to the group of syndromes associated with low but significant defect of DSB signaling and delay in the ATM nucleo-shuttling associated with radiosensitivity.

摘要

结节性硬化症(TSC)综合征与多种皮肤病变(特别是面部病变)、癫痫、智力障碍和发育迟缓有关,总体而言,多个器官良性肿瘤的发生率很高,如血管纤维瘤、巨细胞星形细胞瘤、肾血管平滑肌脂肪瘤和肺淋巴管平滑肌瘤病。TSC 是由 hamartin 或 tuberin 蛋白的突变引起的,这些蛋白主要存在于细胞质中。20 世纪 80 年代发表的一些研究报告称,TSC 与辐射敏感性有关。然而,其在 TSC 细胞中的分子基础尚未得到充分证明。在这里,我们研究了 TSC 患者成纤维细胞中辐射诱导的 DNA 双链断裂(DSB)的修复和信号转导功能。静止期 TSC 成纤维细胞表现出异常低的双链断裂识别率,这反映在磷酸化 H2AX 组蛋白形成的核焦点产量较低。受照射的 TSC 细胞也表现出 ATM 激酶的核易位延迟,这可能是由于 ATM 与细胞质中突变的 TSC 蛋白的特异性结合。最后,TSC 成纤维细胞表现出异常高的 MRE11 核酸酶活性,提示基因组不稳定。双膦酸盐和他汀类药物的联合使用通过促进 ATM 的核易位并增加识别 DSB 的产量来弥补这些缺陷。我们的结果表明,TSC 属于与 DSB 信号转导缺陷低但显著相关并与辐射敏感性相关的 ATM 核易位延迟相关的综合征组。

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Menkes 病和 Wilson 病相关铜代谢紊乱患者成纤维细胞对电离辐射的反应:ATM 蛋白激酶核穿梭的影响。
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The Radiobiological Characterization of Human and Porcine Lens Cells Suggests the Importance of the ATM Kinase in Radiation-Induced Cataractogenesis.人眼和猪眼晶状体细胞的放射生物学特性表明 ATM 激酶在放射诱导性白内障发生中的重要性。
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The nucleo-shuttling of the ATM protein as a basis for a novel theory of radiation response: resolution of the linear-quadratic model.ATM蛋白的核穿梭作为辐射反应新理论的基础:线性二次模型的解析
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