激光扫描细胞术对人上皮肿瘤细胞系的多参数分析。

Cytometry Pub Date : 2000-12-15
A A Pollice, C A Smith, K Brown, D L Farkas, J F Silverman, S E Shackney
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引用次数: 0

摘要

激光扫描细胞术(LSC)是一种相对较新的基于载玻片的技术,由CompuCyte公司(Cambridge, MA)开发用于商业用途,用于对单个细胞进行多重荧光测量。由于基于光散射作为细胞鉴定的触发参数对单个淋巴样细胞进行四次或更多测量的技术不适合鉴定固定上皮肿瘤细胞,因此需要一种替代方法来通过LSC分析此类细胞。以正常淋巴细胞和两种人乳腺癌细胞系JC-1939和MCF-7作为测试群体,开发了样品制备、事件触发和对分解的固定人细胞进行多重LSC测量的方法。通过LSC鉴定单个细胞的最佳条件取决于几个因素,包括沉积细胞密度(单位面积的细胞数)、探针荧光强度的动态范围和荧光探针的细胞内分布。稀疏沉积的细胞重叠最少,免疫荧光染色最亮。使用DNA探针而不是细胞质免疫荧光蛋白标记物(如微管蛋白)来触发事件的主要优点是,前者在相对明确划分的核区域内表现出更大的荧光强度。DNA结合染料LDS-751被发现是定量DNA测量的次优,但作为触发测量有用,允许在每个细胞上同时进行异硫氰酸荧光素,藻红蛋白和吲哚二碳花青素的测量。与流式细胞术相比,LSC的一个主要潜在优势是LSC可分析细胞的高产量,允许对每个肿瘤进行多色测量。总之,我们开发并优化了一种基于事件触发的LSC技术,该技术使用dna结合染料LDS 751对固定上皮细胞进行多次荧光测量。虽然对细胞DNA含量的定量测量并不理想,但这种染料的大斯托克斯位移允许在每个细胞上进行三次或更多额外的荧光测量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multiparameter analysis of human epithelial tumor cell lines by laser scanning cytometry.

Laser scanning cytometry (LSC) is a relatively new slide-based technology developed for commercial use by CompuCyte (Cambridge, MA) for performing multiple fluorescence measurements on individual cells. Because techniques developed for performing four or more measurements on individual lymphoid cells based on light scatter as a triggering parameter for cell identification are not suitable for the identification of fixed epithelial tumor cells, an alternative approach is required for the analysis of such cells by LSC. Methods for sample preparation, event triggering, and the performance of multiple LSC measurements on disaggregated fixed human cells were developed using normal lymphocytes and two human breast cancer cell lines, JC-1939 and MCF-7, as test populations. Optimal conditions for individual cell identification by LSC were found to depend on several factors, including deposited cell density (cells per unit area), the dynamic range of probe fluorescence intensities, and intracellular distribution of the fluorescent probe. Sparsely deposited cells exhibited the least cell overlap and the brightest immunofluorescent staining. Major advantages of using DNA probes over a cytoplasmic immunofluorescent protein marker such as tubulin for event triggering are that the former exhibit greater fluorescence intensity within a relatively sharply demarcated nuclear region. The DNA-binding dye LDS-751 was found to be suboptimal for quantitative DNA measurements but useful as a triggering measurement that permits the performance of simultaneous fluorescein isothiocyanate-, phycoerythrin-, and indodicarbocyanine-based measurements on each cell. A major potential advantage of LSC over flow cytometry is the high yields of analyzable cells by LSC, permitting the performance of multiple panels of multicolor measurements on each tumor. In conclusion, we have developed and optimized a technique for performing multiple fluorescence measurements on fixed epithelial cells by LSC based on event triggering using the DNA-binding dye LDS 751. Although not ideal for quantitative measurements of cell DNA content, the large Stokes shift of this dye permits the performance of three or more additional fluorescence measurements on each cell.

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