Phonethepswath Souk, Bryce Steven M, Bemis Jeffrey C, Dertinger Stephen D
Litron Laboratories, 200 Canal View Boulevard, Rochester, NY, United States.
Mutat Res. 2008 Dec 8;657(2):122-6. doi: 10.1016/j.mrgentox.2008.08.011. Epub 2008 Aug 26.
Glycosylphosphatidylinositol (GPI) anchors attach specific proteins to the cell surface of hematopoietic cells. Of the genes required to form GPI anchors, only Pig-a is located on the X-chromosome. Prior work with rats suggests that the GPI anchor deficient phenotype is a reliable indicator of Pig-a mutation [Bryce et al., Environ. Mol. Mutagen., 49 (2008) 256-264]. The current report extends this line of investigation by describing simplified blood handling procedures, and by testing the assay principle in a second species, Mus musculus. With this method, erythrocytes are isolated, incubated with anti-CD24-PE, and stained with SYTO 13. Flow cytometric analyses quantify GPI anchor-deficient erythrocytes and reticulocytes. After reconstruction experiments with mutant-mimicking cells demonstrated that the analytical performance of the method is high, CD-1 mice were treated on three occasions with 7,12-dimethyl-1,2-benz[a]anthracene (DMBA, 75 mg/kg/day) or ethyl-N-nitrosourea (ENU, 40 mg/kg/day). Two weeks after the final treatment, DMBA-treated mice were found to exhibit markedly elevated frequencies of GPI anchor deficient erythrocytes and reticulocytes. For the ENU experiment, blood specimens were collected at weekly intervals over a 5-week period. Whereas the frequencies of mutant reticulocytes were significantly elevated 1 week after the last administration, the erythrocyte population was unchanged until the second week. Thereafter, both populations exhibited persistently elevated frequencies for the duration of the experiment (mean frequency at termination=310x10(-6) and 523x10(-6) for erythrocyte and reticulocyte populations, respectively). These data provide evidence that Pig-a mutation does not convey an appreciable positive or negative cell survival advantage to affected erythroid progenitors, although they do suggest that affected erythrocytes have a reduced lifespan in circulation. Collectively, accumulated data support the hypothesis that flow cytometric enumeration of GPI anchor deficient erythrocytes and/or reticulocytes represents an effective in vivo mutation assay that is applicable across species of toxicological interest.
糖基磷脂酰肌醇(GPI)锚将特定蛋白质附着于造血细胞的细胞表面。在形成GPI锚所需的基因中,只有Pig-a位于X染色体上。先前对大鼠的研究表明,GPI锚缺陷表型是Pig-a突变的可靠指标[Bryce等人,《环境与分子突变》,49(2008)256 - 264]。本报告通过描述简化的血液处理程序,并在第二个物种小家鼠中测试该检测原理,扩展了这一研究方向。使用这种方法,分离红细胞,与抗CD24-PE一起孵育,并用SYTO 13染色。流式细胞术分析对GPI锚缺陷红细胞和网织红细胞进行定量。在用模拟突变细胞进行重建实验证明该方法的分析性能很高之后,对CD-1小鼠进行了三次处理,分别给予7,12-二甲基苯并[a]蒽(DMBA,75 mg/kg/天)或N-乙基-N-亚硝基脲(ENU,40 mg/kg/天)。在最后一次处理两周后,发现用DMBA处理的小鼠中GPI锚缺陷红细胞和网织红细胞的频率显著升高。对于ENU实验,在5周的时间内每周采集一次血样。虽然在最后一次给药后1周突变网织红细胞的频率显著升高,但红细胞群体直到第二周都没有变化。此后,在实验期间这两个群体的频率持续升高(实验结束时红细胞和网织红细胞群体的平均频率分别为310×10⁻⁶和523×10⁻⁶)。这些数据提供了证据,表明Pig-a突变对受影响的红系祖细胞没有明显的正向或负向细胞存活优势,尽管它们确实表明受影响的红细胞在循环中的寿命缩短。总体而言,积累的数据支持这样的假设,即通过流式细胞术对GPI锚缺陷红细胞和/或网织红细胞进行计数代表了一种有效的体内突变检测方法,适用于具有毒理学研究价值的物种。