Resistance of Quiescent Human Diploid Fibroblasts to High Dose of External Oxidative Stress and Induction of Senescence

Danijela Domazet-Damjanov, M. Somayajulu-Niţu, S. Pandey
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引用次数: 5

Abstract

In response to external oxidative stress/DNA damaging agents, mammalian cells may choose one of the following pathways to avoid propagation of the damaged cells: repair the DNA and proceed with the normal cell cycle; trigger apoptosis; or undergo senescence to block cell division. If these safeguard mechanisms fail, cells containing damaged/mutated DNA will continue to propagate leading to cancer. Working with Human Diploid Fibroblasts, we have observed that young quiescent fibroblasts, unlike dividing fibroblasts, do not undergo apoptosis when subjected to high dose of external oxidative stress. Interestingly, when those quiescent fibroblasts are sub-cultured following H2O2 treatment, they display all the features of the senescent cell phenotype. Our results have indicated that p21 and MnSOD over-expression in quiescent cells is highly correlated to resistance to oxidative stress and may induce senescence. Moreover, there was no observable DNA damage in quiescent fibroblasts after 500 μM H2O2 treatment even though oxidative damage to lipids and proteins was detected both before and after treatment. Most importantly, the mitochondrial membrane potential in quiescent cells remained unchanged even after exposure to a high dose of external oxidative stress. In dividing cells, Bcl-2 expression was down-regulated whereas Bax expression was up-regulated following oxidative stress. On the other hand, Bcl-2 levels remained high and Bax was down-regulated in quiescent cells under identical treatment. Our results reveal that the over-expression of p21 and Mn-SOD and the down-regulation of Bax in quiescent cells could be responsible for their resistance against external oxidative stress and onset of senescence.
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静止的人二倍体成纤维细胞对高剂量外部氧化应激的抵抗及诱导衰老
为了应对外部氧化应激/DNA损伤因子,哺乳动物细胞可能会选择以下途径之一来避免受损细胞的繁殖:修复DNA并继续正常的细胞周期;引发细胞凋亡;或者经历衰老来阻止细胞分裂。如果这些保护机制失效,含有受损/突变DNA的细胞将继续繁殖,导致癌症。通过对人类二倍体成纤维细胞的研究,我们观察到年轻的静止成纤维细胞,与分裂成纤维细胞不同,当受到高剂量的外部氧化应激时,不会发生凋亡。有趣的是,当这些静止的成纤维细胞在H2O2处理后继代培养时,它们表现出衰老细胞表型的所有特征。我们的研究结果表明,p21和MnSOD在静止细胞中的过表达与抗氧化应激高度相关,并可能诱导衰老。此外,在500 μM H2O2处理前后均检测到脂质和蛋白质的氧化损伤,但在静止成纤维细胞中未观察到DNA损伤。最重要的是,即使暴露于高剂量的外部氧化应激后,静止细胞的线粒体膜电位仍保持不变。在分裂细胞中,氧化应激导致Bcl-2表达下调,Bax表达上调。另一方面,在相同处理的静止细胞中,Bcl-2水平保持高水平,Bax水平下调。我们的研究结果表明,p21和Mn-SOD的过表达以及Bax的下调可能与静止细胞抵抗外部氧化应激和衰老的发生有关。
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