Institute of Cancer Research, Section of Molecular Carcinogenesis, Sutton, Surrey, United Kingdom.
Environ Mol Mutagen. 2012 Apr;53(3):207-17. doi: 10.1002/em.21679. Epub 2012 Feb 20.
Approximately 50% of human tumors have a mutation in TP53. The pattern and spectra of TP53 mutations often differ between cancer types, perhaps due to different etiological factors. The Hupki (human TP53 knock-in) mouse embryo fibroblast (HUF) immortalization assay is useful for studying mutagenesis in the human TP53 gene by environmental carcinogens. Prior to initiating an immortalization assay, carcinogen treatment conditions must be optimized, which can require a large number of cells. As primary HUF cultures senesce within 2 weeks, restricting their use, we investigated whether immortalized HUFs retaining wild-type TP53 can be surrogates for primary HUFs in initial treatment optimization. DNA damage by eight compounds found in diesel exhaust, benzo[a]pyrene, 3-nitrobenzanthrone, 1-nitropyrene, 1,3-dinitropyrene, 1,6-dinitropyrene, 1,8-dinitropyrene, 6-nitrochrysene, and 3-nitrofluorene, was assessed by (32) P-postlabeling and the alkaline comet assay in primary HUFs and in an immortal HUF cell line J201. For most compounds, higher levels of DNA adducts accumulated in J201 cells than in primary HUFs. This difference was not reflected in the comet assay or by cell viability changes. Experiments in three additional immortal HUF cell lines (AAI49, U56, and E2-143) confirmed strong differences in DNA adduct levels compared with primary HUFs. However, these did not correlate with the protein expression of Nqo1 or Nat1/2, or with gene expression of Cyp1a1 or Cyp1b1. Our results show that using immortal HUFs as surrogates for primary HUFs in genotoxicity screening has limitations and that DNA adduct formation is the best measure of genotoxicity of the nitro-polycyclic aromatic hydrocarbons tested in HUFs.
大约 50%的人类肿瘤存在 TP53 突变。TP53 突变的模式和谱往往因癌症类型而异,这可能是由于不同的病因因素。Hupki(人类 TP53 敲入)小鼠胚胎成纤维细胞(HUF)永生化测定法可用于研究环境致癌物引起的人 TP53 基因的诱变。在启动永生化测定之前,必须优化致癌剂处理条件,这可能需要大量细胞。由于原代 HUF 培养物在 2 周内衰老,限制了它们的使用,我们研究了是否保留野生型 TP53 的永生化 HUF 可以替代原代 HUF 进行初始处理优化。通过(32)P-后标记和碱性彗星试验,评估了八种柴油废气化合物(苯并[a]芘、3-硝基苯并蒽酮、1-硝基芘、1,3-二硝基芘、1,6-二硝基芘、1,8-二硝基芘、6-硝基胆甾烯和 3-硝基芴)在原代 HUF 和永生化 HUF 细胞系 J201 中的 DNA 损伤。对于大多数化合物,J201 细胞中 DNA 加合物的水平高于原代 HUF 细胞。这种差异在彗星试验或细胞活力变化中没有反映出来。在另外三个永生化 HUF 细胞系(AAI49、U56 和 E2-143)中的实验证实,与原代 HUF 相比,DNA 加合物水平存在明显差异。然而,这些差异与 Nqo1 或 Nat1/2 的蛋白表达或 Cyp1a1 或 Cyp1b1 的基因表达无关。我们的结果表明,在遗传毒性筛选中使用永生化 HUF 作为原代 HUF 的替代品存在局限性,并且 DNA 加合物的形成是在所测试的硝基多环芳烃中评估 HUF 遗传毒性的最佳方法。
