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沉淀中不同大小哺乳动物细胞间的电融合:在药物递送和杂交瘤形成中的潜在应用。

Electrofusion between heterogeneous-sized mammalian cells in a pellet: potential applications in drug delivery and hybridoma formation.

作者信息

Li L H, Hensen M L, Zhao Y L, Hui S W

机构信息

Membrane Biophysics Laboratory, Roswell Park Cancer Institute, Buffalo, New York 14263 USA.

出版信息

Biophys J. 1996 Jul;71(1):479-86. doi: 10.1016/S0006-3495(96)79249-4.

Abstract

High-efficiency electrofusion between cells of different sizes was achieved by application of fusing electric pulses to cells in centrifuged pellets. Larger target cells (Chinese hamster ovary or L1210 cells) were stacked among smaller human erythrocytes or erythrocyte ghosts by sequential centrifugation at 700 g to form five-tier pellets in a specially designed centrifugation-electrofusion chamber. The membranes of erythrocytes and ghost were labeled with fluorescent membrane dye (1,1' dioctadecyl-3,3,3'3'-tetramethylindocarbocyanine (Dil)), and the contents of ghosts were loaded with water-soluble fluorescent dye (42-kDa fluorescein isothiocyanate dextran (FITC-dextran)), to monitor heterogeneous cell fusion. Fusion efficiency was assayed by the extent of either membrane dye mixing or contents (FITC-dextran) mixing with target cells. Four rectangular electric pulses at 300 V and 80 microseconds each were found to give the optimal fusion results of approximately 80% heterogeneous fusion by the content-mixing assay and approximately 95% by the membrane-dye-mixing assay. Cell viability remained greater than 80% after electrofusion. Because of the electric breakdown of cell membranes at the beginning of the pulse, the pellet resistance and hence the partial voltage across the pellet reduced rapidly during the remaining pulse time. This voltage redistribution favored the survival of fused cells. The limited colloidal-osmotic swelling of cells in pellets enhanced cell-cell contact and increased the pellet resistance after each pulse. As a result, the partial voltage across the pellet was restored when the next pulse was applied. This redistribution of pulse voltage in the pellet system permitted the breakdown of cell membranes at a lower applied voltage threshold than that required for electrofusion of cells in suspension or in dielectrophoretic cell chains. The cell viability and soluble dye retention within cells (FITC-dextran) remained at the same high levels for 3 h when the cells were incubated in respective culture media with serum at 37 degrees C. Viability and dye retention decreased significantly within 30 min when cells were incubated in phosphate-buffered saline without serum. The pellet technique was applied to form hybridomas by fusion of larger SP2/0 murine myelomas with smaller naive mouse lymphocytes. An optimum of 173 +/- 70 hypoxanthine aminopterin thymidine (HAT)-selected clones of the hybridomas was obtained from 40,000 SP2/0 cells and 1.5 x 10(6) lymphocytes used in each trial. This high-efficiency fusion technique may be adapted to mediate drug and gene transfer to target cells ex vivo as well as to form hybrid cells with limited cell sources.

摘要

通过对离心沉淀中的细胞施加融合电脉冲,实现了不同大小细胞之间的高效电融合。通过在700g下连续离心,将较大的靶细胞(中国仓鼠卵巢细胞或L1210细胞)堆叠在较小的人红细胞或红细胞影之间,在专门设计的离心电融合室中形成五层沉淀。红细胞和红细胞影的膜用荧光膜染料(1,1'-二辛基-3,3,3',3'-四甲基吲哚碳菁(Dil))标记,红细胞影的内容物用可溶性荧光染料(42kDa异硫氰酸荧光素葡聚糖(FITC-葡聚糖))加载,以监测异质细胞融合。通过膜染料混合或内容物(FITC-葡聚糖)与靶细胞混合的程度来测定融合效率。发现四个300V、每个80微秒的矩形电脉冲能给出最佳融合结果,通过内容物混合测定法,异质融合率约为80%,通过膜染料混合测定法约为95%。电融合后细胞活力保持在80%以上。由于脉冲开始时细胞膜的电击穿,沉淀电阻以及因此沉淀两端的分压在剩余脉冲时间内迅速降低。这种电压重新分布有利于融合细胞的存活。沉淀中细胞有限的胶体渗透肿胀增强了细胞间接触,并在每个脉冲后增加了沉淀电阻。结果,当下一个脉冲施加时,沉淀两端的分压得以恢复。沉淀系统中脉冲电压的这种重新分布使得细胞膜在比悬浮细胞或介电泳细胞链中的细胞电融合所需的施加电压阈值更低的情况下发生击穿。当细胞在含有血清的相应培养基中于37℃孵育时,细胞活力和细胞内可溶性染料保留率(FITC-葡聚糖)在3小时内保持在相同的高水平。当细胞在无血清的磷酸盐缓冲盐水中孵育时,活力和染料保留率在30分钟内显著下降。沉淀技术被应用于通过将较大的SP2/0鼠骨髓瘤细胞与较小的未免疫小鼠淋巴细胞融合来形成杂交瘤。每次试验中,从40000个SP2/0细胞和1.5×10⁶个淋巴细胞中获得了173±70个经次黄嘌呤氨基蝶呤胸腺嘧啶核苷(HAT)筛选的杂交瘤克隆的最佳产量。这种高效融合技术可适用于介导药物和基因向靶细胞的离体转移,以及在细胞来源有限的情况下形成杂交细胞。

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