患者源性白血病的即时转染:产生细胞疫苗的新来源。

Jill A Gershan, Bryon D Johnson, James Weber, Dennis W Schauer, Natalia Natalia, Stephanie Behnke, Karen Burns, Kelly W Maloney, Anne B Warwick, Rimas J Orentas
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引用次数: 6

摘要

背景:在模型系统中,利用基因载体编码刺激免疫系统的蛋白质生产基于细胞的癌症疫苗进展迅速。我们试图开发非病毒转染方法,将患者肿瘤细胞转化为癌症疫苗,为快速生产基于自体细胞的疫苗铺平道路。方法:由于大多数患者肿瘤细胞的扩展培养和扩增是不可能的,我们试图首先评估一种结合电穿孔和化学转染的新技术,以确定基于质粒的基因载体是否可以即时传递到细胞核,并确定基因表达是否可能以细胞周期独立的方式进行。我们使用RFP和CD137L表达载体,对培养细胞系、小鼠肿瘤原发细胞和诊断性白血病原发细胞进行转基因表达测试。结果:通过共聚焦显微镜和分离细胞核的实时PCR分析,电穿孔-转染联合将质粒DNA直接传递到转染细胞的细胞核中。质粒载体的蛋白表达最早可在转染后2小时检测到。然而,基于质粒载体的基因在肿瘤细胞系中的表达动力学表明,最佳的基因表达仍然依赖于细胞分裂。然后,我们测试了儿科急性淋巴细胞白血病(ALL)是否也会显示肿瘤细胞系的快速基因表达动力学,检测转染后24小时的基因表达。12个样本中有6个样本的转基因表达量大于17%,所有样本都至少有一些转基因表达。结论:考虑到转基因表达可以在大多数原发肿瘤样品中在数小时内检测到,直接电穿孔转染原发白血病具有产生患者特异性癌症疫苗的潜力。基于质粒的基因治疗是产生基于细胞的癌症疫苗的一种简单方法,不需要基于病毒的载体系统的广泛基础设施。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Immediate transfection of patient-derived leukemia: a novel source for generating cell-based vaccines.

Immediate transfection of patient-derived leukemia: a novel source for generating cell-based vaccines.

Immediate transfection of patient-derived leukemia: a novel source for generating cell-based vaccines.

Immediate transfection of patient-derived leukemia: a novel source for generating cell-based vaccines.

Background: The production of cell-based cancer vaccines by gene vectors encoding proteins that stimulate the immune system has advanced rapidly in model systems. We sought to develop non-viral transfection methods that could transform patient tumor cells into cancer vaccines, paving the way for rapid production of autologous cell-based vaccines.

Methods: As the extended culture and expansion of most patient tumor cells is not possible, we sought to first evaluate a new technology that combines electroporation and chemical transfection in order to determine if plasmid-based gene vectors could be instantaneously delivered to the nucleus, and to determine if gene expression was possible in a cell-cycle independent manner. We tested cultured cell lines, a primary murine tumor, and primary human leukemia cells from diagnostic work-up for transgene expression, using both RFP and CD137L expression vectors.

Results: Combined electroporation-transfection directly delivered plasmid DNA to the nucleus of transfected cells, as demonstrated by confocal microscopy and real-time PCR analysis of isolated nuclei. Expression of protein from plasmid vectors could be detected as early as two hours post transfection. However, the kinetics of gene expression from plasmid-based vectors in tumor cell lines indicated that optimal gene expression was still dependent on cell division. We then tested to see if pediatric acute lymphocytic leukemia (ALL) would also display the rapid gene expression kinetics of tumor cells lines, determining gene expression 24 hours after transfection. Six of 12 specimens showed greater than 17% transgene expression, and all samples showed at least some transgene expression.

Conclusion: Given that transgene expression could be detected in a majority of primary tumor samples analyzed within hours, direct electroporation-based transfection of primary leukemia holds the potential to generate patient-specific cancer vaccines. Plasmid-based gene therapy represents a simple means to generate cell-based cancer vaccines and does not require the extensive infrastructure of a virus-based vector system.

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