Matera Giada, Lupi Monica, Ubezio Paolo
Biophysics Unit, Department of Oncology, Istituto di Ricerche Farmacologiche Mario Negri, Milano, Italy.
Cytometry A. 2004 Dec;62(2):118-28. doi: 10.1002/cyto.a.20097.
Carboxyfluorescein diacetate succinimidyl ester (CFSE) is currently used to investigate migration and proliferation of hemopoietic cells. In principle, CFSE is retained by the cells and is shared by the daughter cells at each division, resulting in multimodal flow cytometric CFSE histograms, with each cell generation clustering around half the fluorescence intensity of the previous one. However, intercell variability of CFSE loading results in overlapping peaks, thereby limiting its use with cancer cell lines.
We used IGROV1 ovarian cancer cells loaded with CFSE at the time of seeding; 24 h later cells were treated with an anticancer drug (topotecan). Potential pitfalls of the analysis were examined, and a procedure of evaluation of CFSE efflux was applied to fix the peak positions with good approximation in advance. Histograms were fitted by a series of gaussians, with each representing cells in a given generation.
Effects of topotecan on IGROV1 cells were analyzed in terms of the time course of the percentage of cells that remained undivided or entered the second, third, and subsequent division cycles. A simple algorithm, which combined flow cytometric data with the absolute cell number independently measured by Coulter counter, provided an estimate of the 96-h outcome of the starting cell population by quantifying cells that remained undivided, those able to divide at least once, or those that had died.
We assessed experimental and data analytic procedures for a CFSE-based measurement of antiproliferative activity of drugs in cancer cell lines. A quantitative level was achievable but required a strict procedure for control of the experimental data, which was not straightforward.
羧基荧光素二乙酸琥珀酰亚胺酯(CFSE)目前用于研究造血细胞的迁移和增殖。原则上,CFSE被细胞保留,并在每次分裂时由子代细胞共享,从而产生多峰流式细胞术CFSE直方图,每个细胞世代聚集在前一代荧光强度的一半左右。然而,CFSE加载的细胞间变异性导致峰重叠,从而限制了其在癌细胞系中的应用。
我们在接种时用CFSE加载IGROV1卵巢癌细胞;24小时后,用抗癌药物(拓扑替康)处理细胞。检查了分析中的潜在陷阱,并应用了一种CFSE外排评估程序来预先很好地近似确定峰位置。直方图用一系列高斯曲线拟合,每个高斯曲线代表给定世代的细胞。
根据未分裂或进入第二、第三及后续分裂周期的细胞百分比的时间进程,分析了拓扑替康对IGROV1细胞的影响。一种简单的算法,将流式细胞术数据与通过库尔特计数器独立测量的绝对细胞数相结合,通过量化未分裂的细胞、能够至少分裂一次的细胞或已死亡的细胞,提供了起始细胞群体96小时结果的估计。
我们评估了基于CFSE测量癌细胞系中药物抗增殖活性的实验和数据分析程序。可以实现定量水平,但需要严格的程序来控制实验数据,这并非易事。
