BioProcess Assist (BPA) Ltd, 8 Maple Leaf Lane , Aberfoyle, ON, Canada, N1H 6H9,
Cytotechnology. 2006 Sep;52(1):55-69. doi: 10.1007/s10616-006-9041-4. Epub 2007 Jan 25.
A Chinese Hamster Ovary cell line, CHO1-15(500), producing recombinant human tissue type plasminogen activator (tPA) via the dihydrofolate reductase (DHFR) amplification system, was studied in batch culture. In this system both DHFR and tPA are under the control of the strong constitutive viral SV40 early promoter. Employing the cumulative viable cell-hour approach, the specific productivity of tPA had maxima in the lag (0.065 pg cell(-1 )h(-1)) and early decline (0.040 pg cell(-1 )h(-1)) population growth phases. The viable population was assigned into four subpopulations (G1, S, G2/M phase, and Apoptotic cells) using flow cytometric analysis. As expected, intracellular DHFR was maximally expressed during the S cell cycle phase. The production of tPA, however, was found to be a direct linear function of the G1 phase, with a subpopulation specific productivity of 0.080 pg c-h(-1). Productivity maxima in the lag and early decline corroborate the flow cytometric data, indicative that this recombinant tPA production occurs primarily in the G1 cell cycle phase, not the S phase. This suggests that endogenous regulatory mechanisms are important controlling influences on the production of recombinant tPA in this ovarian cell line. Productivity from recombinant cell lines cannot be inferred from either the plasmid construct or the host cell alone. Elucidation of the relationship between expression of recombinant protein and the cell cycle phases of the host cell is a major component of the characterization of the animal cell production system. This information facilitates rational process design, including operating mode, modelling and control, and medium formulation.
一株中国仓鼠卵巢细胞系 CHO1-15(500),通过二氢叶酸还原酶(DHFR)扩增系统生产重组人组织型纤溶酶原激活剂(tPA),在分批培养中进行了研究。在该系统中,DHFR 和 tPA 均受强组成型病毒 SV40 早期启动子的控制。采用累积活细胞-小时法,tPA 的比生产率在迟滞(0.065 pg 细胞(-1)h(-1))和早期下降(0.040 pg 细胞(-1)h(-1))种群生长阶段达到最大值。使用流式细胞术分析将活细胞群体分配为四个亚群(G1、S、G2/M 期和凋亡细胞)。正如预期的那样,细胞内 DHFR 在 S 细胞周期阶段表达最高。然而,tPA 的产生被发现与 G1 期呈直接线性关系,亚群比生产率为 0.080 pg c-h(-1)。迟滞和早期下降的生产率最大值与流式细胞术数据相符,表明这种重组 tPA 的产生主要发生在 G1 细胞周期阶段,而不是 S 期。这表明内源性调节机制是控制该卵巢细胞系中重组 tPA 产生的重要影响因素。从重组细胞系的生产率不能仅从质粒构建或宿主细胞推断。阐明重组蛋白的表达与宿主细胞的细胞周期阶段之间的关系是动物细胞生产系统表征的主要组成部分。该信息有助于合理的工艺设计,包括操作模式、建模和控制以及培养基配方。