Department of Gastroenterological Surgery, Osaka University Graduate School of Medicine, Suita, Osaka 565-0871, Japan.
Int J Oncol. 2012 May;40(5):1423-30. doi: 10.3892/ijo.2012.1346. Epub 2012 Jan 24.
Induced pluripotent stem (iPS)-like cancer cells (iPC) by the introduction of defined transcription factors reduce the prevalence of the malignant phenotype of digestive system cancer cells, but the induction efficiency is low. The role of hypoxia and TP53 deficiency in iPC cell generation remain unclear. Cellular reprogramming was performed by retroviral infection with OCT3/4, SOX2, KLF4 and c-MYC of wild-type HCT116 colorectal cancer cells and mutant TP53-deficient HCT116 cells. Cells were cultured in normoxia (21% O2) or hypoxia (5% O2) for 30 days after transduction, and the response to hypoxia and comparison of cellular proliferation, invasion and tumourigenesis before and after iPC cell generation were studied. iPC cell generation from wild-type HCT116 cells in hypoxia was approximately 4-times greater than in normoxia (p<0.05), and TP53 deficiency increased conversion efficiency significantly in normoxia (p<0.05). Significant involvement of hypoxia-inducible factors was observed in an immature carbohydrate epitope, Tra-1-60+, colony formation. Generated iPC cells exhibited multi-differentiation potential. Although the iPC cells in hypoxia exhibited reduced proliferation, invasiveness and tumourigenicity, TP53 deficiency in iPC cells resulted in higher tumourigenicity than in wild-type cells. Both hypoxia and TP53 deficiency increase iPC cell generation. TP53 deficiency can also result in deleterious mutations, whereas hypoxia may impact molecular targets of epigenome normalisation.
诱导多能干细胞 (iPS)-样癌细胞 (iPC) 通过引入定义明确的转录因子降低消化系统癌细胞恶性表型的发生率,但诱导效率较低。缺氧和 TP53 缺失在 iPC 细胞生成中的作用仍不清楚。通过逆转录病毒感染野生型 HCT116 结直肠癌细胞和突变型 TP53 缺陷 HCT116 细胞的 OCT3/4、SOX2、KLF4 和 c-MYC 进行细胞重编程。转导后在常氧 (21% O2) 或缺氧 (5% O2) 下培养 30 天,研究缺氧反应以及 iPC 细胞生成前后细胞增殖、侵袭和致瘤性的比较。与常氧相比,缺氧条件下从野生型 HCT116 细胞中生成 iPC 细胞的效率约增加 4 倍(p<0.05),而 TP53 缺失在常氧条件下显著增加转化率(p<0.05)。在不成熟的碳水化合物表位 Tra-1-60+、集落形成中观察到缺氧诱导因子的显著参与。生成的 iPC 细胞表现出多能性分化潜能。尽管缺氧条件下的 iPC 细胞增殖、侵袭和致瘤性降低,但 iPC 细胞中的 TP53 缺失导致比野生型细胞更高的致瘤性。缺氧和 TP53 缺失均可增加 iPC 细胞的生成。TP53 缺失也可能导致有害突变,而缺氧可能影响表观基因组正常化的分子靶标。
