利用纤维修饰的腺病毒载体对分散胰岛细胞进行高效基因转导。

H. Hanayama, K. Ohashi, R. Utoh, H. Shimizu, K. Ise, F. Sakurai, H. Mizuguchi, H. Tsuchiya, T. Okano, M. Gotoh
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引用次数: 0

摘要

为了建立新的基于胰岛的治疗方法,我们的团队最近开发了通过移植分散的整体胰岛细胞片(胰岛细胞片)在皮下空间创建功能性新胰岛组织的技术。提高细胞功能和活力是提高治疗效果的下一个重要挑战。本文描述了腺病毒载体介导的分散胰岛细胞在培养条件下的基因转导。从Lewis大鼠获得纯化的胰岛并分离成单个胰岛细胞。细胞被镀在层粘胶蛋白-5包被的温度响应聚合物聚(n-异丙基丙烯酰胺)-固定化塑料盘子上。在0 h,用常规的5型腺病毒载体(Ad-CA-GFP)或纤维修饰的腺病毒载体(AdK7-CA-GFP)感染胰岛细胞1小时,这些腺病毒载体在纤维突起的C端含有聚赖氨酸(K7)肽。我们研究了感染后48 h的基因转导效率,发现AdK7-CA-GFP在感染倍数(MOI)为5和10时的转导效率高于Ad-CA-GFP。对于MOI = 10的AdK7-CA-GFP,通过活细胞数和乳酸脱氢酶(LDH)释放测定,发现84.4±1.5%的胰岛细胞被遗传转导,没有明显的载体感染相关细胞损伤。在MOI = 10时感染AdK7-CA-GFP后,细胞保持附着并扩增到几乎完全融合,表明这种腺病毒感染方案是一种创建胰岛细胞片的可行方法。我们已经证明分散和培养的胰岛细胞可以有效地使用纤维修饰的腺病毒载体进行基因修饰。因此,该基因治疗技术可用于分散胰岛细胞的细胞修饰或生物学评价。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Efficient Gene Transduction of Dispersed Islet Cells in Culture Using Fiber-Modified Adenoviral Vectors.
To establish novel islet-based therapies, our group has recently developed technologies for creating functional neo-islet tissues in the subcutaneous space by transplanting monolithic sheets of dispersed islet cells (islet cell sheets). Improving cellular function and viability are the next important challenges for enhancing the therapeutic effects. This article describes the adenoviral vector-mediated gene transduction of dispersed islet cells under culture conditions. Purified pancreatic islets were obtained from Lewis rats and dissociated into single islet cells. Cells were plated onto laminin-5-coated temperature-responsive polymer poly(N-isopropylacrylamide)-immobilized plastic dishes. At 0 h, islet cells were infected for 1 h with either conventional type 5 adenoviral vector (Ad-CA-GFP) or fiber-modified adenoviral vector (AdK7-CA-GFP) harboring a polylysine (K7) peptide in the C terminus of the fiber knob. We investigated gene transduction efficiency at 48 h after infection and found that AdK7-CA-GFP yielded higher transduction efficiencies than Ad-CA-GFP at a multiplicity of infection (MOI) of 5 and 10. For AdK7-CA-GFP at MOI = 10, 84.4 ± 1.5% of islet cells were found to be genetically transduced without marked vector infection-related cellular damage as determined by viable cell number and lactate dehydrogenase (LDH) release assay. After AdK7-CA-GFP infection at MOI = 10, cells remained attached and expanded to nearly full confluency, showing that this adenoviral infection protocol is a feasible approach for creating islet cell sheets. We have shown that dispersed and cultured islet cells can be genetically modified efficiently using fiber-modified adenoviral vectors. Therefore, this gene therapy technique could be used for cellular modification or biological assessment of dispersed islet cells.
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来源期刊
Cell medicine
Cell medicine MEDICINE, RESEARCH & EXPERIMENTAL-
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