流式细胞术评价电穿孔。

Cytometry Pub Date : 2000-10-01
J Michie, D Janssens, J Cilliers, B J Smit, L Böhm
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引用次数: 0

摘要

背景:电穿孔完成了细胞的瞬间通透性,从而有助于药物的摄取。该方法已在临床上应用博来霉素治疗皮肤肿瘤。电穿孔的条件在很大程度上仍然是经验的,缺乏关于电压脉冲高度、脉冲数与毒性、细胞渗透、药物摄取以及对药物毒性的影响之间的相互关系的信息。我们使用碘化丙啶(PI)和流式细胞术来定义细胞对细胞质和核室的渗透,以确定电穿孔可以实现的药物毒性的改善。方法:使用0- 5000 V/cm范围内的方波脉冲发生器对TP53状态确定的人鳞状癌细胞和正常人上皮细胞进行电穿孔。流式细胞术用于确定药物报告基因PI进入细胞质和细胞核。用染料染色法测定细胞存活率,并测定博来霉素单独、单独电穿孔和博来霉素联合电穿孔的毒性。结果:产生50%通透性(EP(50))所需的电场强度(EFI)与细胞类型有关。EP(50)在1465 ~ 2027 V/cm之间变化。低于900 V/cm的EFI是生长刺激,而超过1000 V/cm的EFI是生长抑制。1000 V/cm的EFI足以使博来霉素的毒性增加2-3倍。在正常细胞和肿瘤细胞之间观察到不同的电穿孔效率。结论:在正常细胞渗透性较差的电穿孔电压下,肿瘤细胞可以优先靶向。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessment of electroporation by flow cytometry.

Background: Electroporation accomplishes transient permeabilization of cells and thus aids in the uptake of drugs. The method has been employed clinically in the treatment of dermatological tumors with bleomycin. The conditions of electroporation are still largely empirical and information is lacking as to the interrelationships among voltage pulse height, pulse number and toxicity, cell permeation, drug uptake, and effects on drug toxicity. We used propidium iodide (PI) and flow cytometry to define cell permeation into cytoplasmic and nuclear compartments to determine the improvements of drug toxicity that can be accomplished by electroporation.

Methods: Human squamous carcinoma cells of defined TP53 status and normal human epithelial cells were subjected to electroporation using a square wave pulse generator in the range of 0-5,000 V/cm. Flow cytometry served to establish entry of the drug reporter, PI, into the cytoplasm and nucleus. A dye staining method served to establish cell survival and to determine the toxicity of bleomycin alone, electroporation alone, and electroporation with bleomycin.

Results: The electric field intensity (EFI) required to produce 50% permeabilization (EP(50)) is cell type dependent. The EP(50) varied from 1,465 to 2,027 V/cm. An EFI below 900 V/cm is growth stimulatory whereas an EFI in excess of 1,000 V/cm is growth inhibitory. An EFI of 1,000 V/cm is sufficient to increase bleomycin toxicity by a factor of 2-3. A differential electroporation efficiency is observed between normal and tumor cells.

Conclusions: Tumor cells can be targeted preferentially at electroporation voltages where normal cells are less permeable.

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