Zoology: Biodiversity and Toxicology, Centre for Environmental Sciences, Hasselt University, 3590 Diepenbeek, Belgium.
Laboratory of Pharmaceutical Technology, Faculty of Pharmaceutical Sciences, Ghent University, 9000 Ghent, Belgium.
Toxicol Sci. 2018 Mar 1;162(1):251-263. doi: 10.1093/toxsci/kfx247.
Aiming to in vivo characterize the responses of pluripotent stem cells and regenerative tissues to carcinogenic stress, we employed the highly regenerative organism Schmidtea mediterranea. Its broad regenerative capacities are attributable to a large pool of pluripotent stem cells, which are considered key players in the lower vulnerability toward chemically induced carcinogenesis observed in regenerative organisms. Schmidtea mediterranea is, therefore, an ideal model to study pluripotent stem cell responses with stem cells residing in their natural environment. Including microenvironmental alterations is important, as the surrounding niche influences the onset of oncogenic events. Both short- (3 days) and long-term (17 days) exposures to the genotoxic carcinogen methyl methanesulfonate (50 µM) were evaluated during homeostasis and animal regeneration, two situations that render altered cellular niches. In both cases, MMS-induced DNA damage was observed, which provoked a decrease in proliferation on the short term. The outcome of DNA damage responses following long-term exposure differed between homeostatic and regenerating animals. During regeneration, DNA repair systems were more easily activated than in animals in homeostasis, where apoptosis was an important outcome. Knockdown experiments confirmed the importance of DNA repair systems during carcinogenic exposure in regenerating animals as knockdown of rad51 induced a stem cell-depleted phenotype, after regeneration was completed.
为了在体内研究多能干细胞和再生组织对致癌应激的反应,我们采用了高度再生的地中海星虫(Schmidtea mediterranea)。它广泛的再生能力归因于大量的多能干细胞,这些干细胞被认为是再生生物中对化学诱导致癌作用较低易感性的关键参与者。因此,地中海星虫是研究多能干细胞在其自然环境中反应的理想模型。包括微环境改变很重要,因为周围的生态位会影响致癌事件的发生。在体内平衡和动物再生过程中,分别评估了短时间(3 天)和长时间(17 天)暴露于遗传毒性致癌剂甲磺酸甲酯(50µM),这两种情况都会导致细胞生态位发生改变。在这两种情况下,都观察到了 MMS 诱导的 DNA 损伤,这导致短期增殖减少。长期暴露后的 DNA 损伤反应结果在体内平衡和再生动物之间有所不同。在再生过程中,与体内平衡动物相比,DNA 修复系统更容易被激活,而在体内平衡动物中,细胞凋亡是一个重要的结果。敲低实验证实了在再生动物中,DNA 修复系统在致癌暴露过程中的重要性,因为 rad51 的敲低导致再生完成后出现干细胞耗竭表型。
