模拟微重力下人乳腺癌细胞骨架形态和基因表达的改变

F. Strube, M. Infanger, M. Wehland, Xenia Delvinioti, A. Romswinkel, C. Dietz, A. Kraus
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引用次数: 13

摘要

目的研究微重力环境下的失重模拟对肿瘤细胞行为的影响。本研究的目的是在这种无支架的三维培养模型中评价人乳腺癌细胞的特性。材料与方法将细胞置于随机定位机(RPM)模拟微重力环境下5天。在相衬和共聚焦显微镜下观察形态学。细胞丝染色,定量逆转录聚合酶链反应(qRT-PCR)检测细胞丝基因、增殖/分化基因、癌基因和抑癌基因表达水平的变化,然后进行western blot检测。结果5 d后,观察到明显的球体形成。可见细胞骨架重排成球形。贴壁细胞和球体中VIM基因表达量显著上调(分别为3.3倍和3.6倍,P均<0.05)。RHOA在贴壁细胞和球体中也有显著的基因上调(分别为3.2倍和3.9倍,P<0.05)。BRCA基因在贴壁细胞和球体中表达显著上调(分别为2.1倍和4.1倍,P均<0.05)。ERBB2基因在球体中显著上调(2.4倍,P<0.05),而在贴壁细胞中无显著上调。RAB27A基因表达无明显变化。MAPK)在贴壁细胞和球体中表达显著上调(分别为3.2倍、3.0倍,P<0.05)。在模拟微重力条件下,VEGF基因表达下调,但无统计学意义。vimentin和MAPK1基因表达的改变在蛋白水平上得到证实。BRCA1、人表皮生长因子受体2 (HER2)和VEGF的蛋白产量未增加。RHOA及其相关蛋白的变化相互矛盾。结论微重力为人乳腺癌细胞提供了一种易于操作、无支架的3d培养模型。细胞形态学、细胞骨架形状和基因表达均发生显著变化。确定潜在的机制可以提供新的治疗选择。
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Alteration of Cytoskeleton Morphology and Gene Expression in Human Breast Cancer Cells under Simulated Microgravity
Objective Weightlessness simulation due to the simulated microgravity has been shown to considerably affect behavior of tumor cells. It is aim of this study to evaluate characteristics of human breast cancer cells in this scaffold- free 3D culture model. Materials and Methods In this experimental study, the cells were exposed to simulated microgravity in a random- positioning machine (RPM) for five days. Morphology was observed under phase-contrast and confocal microscopy. Cytofilament staining was performed and changes in expression level of cytofilament genes, proliferation/differentiation genes, oncogenes and tumor suppressor genes were detected by quantitative reverse transcription polymerase chain reaction (qRT-PCR), followed by western blot confirmation. Results After five days, distinct spheroid formation was observed. Rearrangement of the cytoskeleton into spherical shape was visible. VIM gene expression was significantly up-regulated for adherent cells and spheroids (3.3x and 3.6x respectively, P<0.05 each). RHOA also showed significant gene up-regulation for adherent cells and spheroids (3.2x and 3.9x respectively, P<0.05 each). BRCA showed significant gene up-regulation in adherent cells and spheroids (2.1x and 4.1x respectively, P<0.05 each). ERBB2 showed significant gene up-regulation (2.4x, P<0.05) in the spheroids, but not in the adherent cells. RAB27A showed no significant alteration in gene expression. MAPK) showed significant gene up-regulation in adherent cells and spheroids (3.2x, 3.0x, P<0.05 each). VEGF gene expression was down-regulated under simulated microgravity, without significance. Alterations of gene expressions could be confirmed on protein level for vimentin and MAPK1. Protein production was not increased for BRCA1, human epidermal growth factor receptor 2 (HER2) and VEGF. Contradictory changes were determined for RHOA and its related protein. Conclusion Microgravity provides an easy-to handle, scaffold-free 3D-culture model for human breast cancer cells. There were considerable changes in morphology, cytoskeleton shape and gene expressions. Identification of the underlying mechanisms could provide new therapeutic options.
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