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多倍体/多核巨细胞和慢循环癌细胞在人胶质母细胞瘤细胞中对 X 射线照射的反应中的富集,这些细胞在放射抗性和 TP53/PTEN 状态上存在差异。

Polyploid/Multinucleated Giant and Slow-Cycling Cancer Cell Enrichment in Response to X-ray Irradiation of Human Glioblastoma Multiforme Cells Differing in Radioresistance and TP53/PTEN Status.

机构信息

School of Biological and Medical Physics, Moscow Institute of Physics and Technology, 141700 Dolgoprudny, Russia.

State Research Center-Burnasyan Federal Medical Biophysical Center of Federal Medical Biological Agency (SRC-FMBC), 123098 Moscow, Russia.

出版信息

Int J Mol Sci. 2023 Jan 8;24(2):1228. doi: 10.3390/ijms24021228.

DOI:10.3390/ijms24021228
PMID:36674747
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9865596/
Abstract

Radioresistance compromises the efficacy of radiotherapy for glioblastoma multiforme (GBM), the most devastating and common brain tumor. The present study investigated the relationship between radiation tolerance and formation of polyploid/multinucleated giant (PGCC/MGCC) and quiescent/senescent slow-cycling cancer cells in human U-87, LN-229, and U-251 cell lines differing in status and radioresistance. We found significant enrichment in MGCC populations of U-87 and LN-229 cell lines, and generation of numerous small mononuclear (called Raju cells, or RJ cells) U-87-derived cells that eventually form cell colonies, in a process termed neosis, in response to X-ray irradiation (IR) at single acute therapeutic doses of 2-6 Gy. For the first time, single-cell high-content imaging and analysis of Ki-67- and EdU-coupled fluorescence demonstrated that the IR exposure dose-dependently augments two distinct GBM cell populations. Bifurcation of Ki-67 staining suggests fast-cycling and slow-cycling populations with a normal-sized nuclear area, and with an enlarged nuclear area, including one resembling the size of PGCC/MGCCs, that likely underlie the highest radioresistance and propensity for repopulation of U-87 cells. Proliferative activity and anchorage-independent survival of GBM cell lines seem to be related to neosis, low level of apoptosis, fraction of prematurely stress-induced senescent MGCCs, and the expression of p63 and p73, members of p53 family transcription factors, but not to the mutant 53. Collectively, our data support the importance of the genotype for the maintenance of cycling radioresistant U-87 cells to produce a significant amount of senescent MGCCs as an IR stress-induced adaptation response to therapeutic irradiation doses.

摘要

放射抗性会影响胶质母细胞瘤(GBM)的放射治疗效果,GBM 是最具破坏性和最常见的脑肿瘤。本研究探讨了辐射耐受性与多倍体/多核巨细胞(PGCC/MGCC)和静止/衰老慢循环癌细胞形成之间的关系,这些细胞存在于人 U-87、LN-229 和 U-251 细胞系中,这些细胞系在 状态和放射抗性方面存在差异。我们发现 U-87 和 LN-229 细胞系中 MGCC 群体明显富集,并且在受到 2-6 Gy 单次急性治疗剂量 X 射线照射后,会产生大量的小单核(称为 Raju 细胞或 RJ 细胞)U-87 衍生细胞,这些细胞最终形成细胞集落,这一过程称为新形作用(neosis)。首次通过单细胞高内涵成像和 Ki-67 和 EdU 偶联荧光分析,我们证明 IR 暴露剂量依赖性地增加了两种不同的 GBM 细胞群体。Ki-67 染色的分叉表明,存在具有正常核面积的快速循环和慢循环群体,以及具有扩大核面积的群体,包括一个类似于 PGCC/MGCC 大小的群体,这可能是 U-87 细胞具有最高放射抗性和再增殖倾向的基础。GBM 细胞系的增殖活性和非锚定依赖性存活似乎与新形作用、低水平的细胞凋亡、提前应激诱导的衰老 MGCC 分数以及 p53 家族转录因子成员 p63 和 p73 的表达有关,而与突变型 53 无关。总的来说,我们的数据支持 基因型对维持 U-87 细胞的循环放射抗性的重要性,以产生大量衰老的 MGCC 作为对治疗性照射剂量的 IR 应激适应反应。

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