优化原代人 CD8+ 细胞的转染。

Transfection optimization for primary human CD8+ cells.

机构信息

Department of Medicine, University of California San Francisco, San Francisco, CA 94143, USA.

出版信息

J Immunol Methods. 2011 Sep 30;372(1-2):22-9. doi: 10.1016/j.jim.2011.06.026. Epub 2011 Jul 18.

DOI:10.1016/j.jim.2011.06.026

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3170435/

Abstract

Electroporation, a non-virus-mediated gene transfection method, has traditionally had poor outcomes with low gene transfection efficiency and poor cellular viability, particularly in primary human lymphocytes. Herein we have optimized the electroporation conditions for primary CD8+ cells resulting in a maximum rate of 81.3%, and a mean transfection efficiency of 59.6%. After removal of dead cells, the viability of transfected primary CD8+ cells was greater than 90%, similar to untransfected controls. Using this procedure, primary human CD8+ cells transfected with an interferon α8 plasmid produced fluids that inhibited HIV-1 replication by > 95%. This transfection protocol is useful for transfection of other primary blood cells, such as CD4+ T cells, and for studying the function of genes in primary human blood cells instead of cell lines. The transfection procedure also has potential application in gene therapy clinical trials to treat diseases utilizing transfected primary human cells.

摘要

电穿孔是一种非病毒介导的基因转染方法，传统上其基因转染效率低，细胞活力差，特别是在原代人淋巴细胞中。在此，我们优化了原代 CD8+细胞的电穿孔条件，转染率最高可达 81.3%，平均转染效率为 59.6%。去除死细胞后，转染的原代 CD8+细胞的活力大于 90%，与未转染的对照细胞相似。使用该程序，用干扰素 α8 质粒转染的原代人 CD8+细胞产生的液体可抑制 HIV-1 复制超过 95%。该转染方案可用于转染其他原代血细胞，如 CD4+T 细胞，并可用于研究原代人血细胞而非细胞系中的基因功能。该转染程序在利用转染的原代人细胞进行基因治疗临床试验中也具有潜在的应用，以治疗疾病。

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