Ogata M, Wakita K, Kimura K, Marumoto Y, Oh-i K, Shimizu S
Production Technology Research Laboratories, Daiichi Pharmaceutical Co., Ltd., Tokyo, Japan.
Appl Microbiol Biotechnol. 1993 Jan;38(4):520-5. doi: 10.1007/BF00242948.
Cultivation of gene-engineered Chinese hamster ovary (CHO-K1) cells that produce recombinant human soluble thrombomodulin (rsTM) was investigated to optimize conditions for high-level expression of the protein in a serum-free medium. For economic protein production, oxygenation of cultures with pure O2 permitted sufficient cell growth for high rsTM production with only 1 g/l of microcarriers and a low foetal bovine serum concentration. A longer growth phase (over 5 days) with serum was important to establish sufficient growth of this cell line on the microcarriers for subsequent serum-free culture, and to support a long-term production phase (about 2 months). In the production phase, a high glucose concentration (6.15 g/l) in the serum-free medium was very effective for prolonging the harvest cycle interval. Under these conditions, up to 100 mg/l rsTM was expressed in the conditioned medium. The rates of glucose consumption (G) and lactate production (L) were measured periodically and their ratio (L/G ratio) correlated with rsTM productivity. When the average L/G ratio was lower, reflecting a lower lactate production rate due to appropriate oxygenation of the culture, the specific rsTM production rate increased. Thus it may be possible to estimate protein productivity from L/G ratios calculated from the glucose and lactate measurements.
为了优化重组人可溶性血栓调节蛋白(rsTM)在无血清培养基中的高水平表达条件,对生产该蛋白的基因工程中国仓鼠卵巢(CHO-K1)细胞的培养进行了研究。为了实现经济的蛋白生产,用纯氧对培养物进行氧合,仅需1 g/l的微载体和低浓度的胎牛血清,就能实现足够的细胞生长以进行高产量的rsTM生产。在有血清的情况下,较长的生长阶段(超过5天)对于在微载体上建立该细胞系的足够生长以用于后续的无血清培养,以及支持长期生产阶段(约2个月)非常重要。在生产阶段,无血清培养基中的高葡萄糖浓度(6.15 g/l)对于延长收获周期间隔非常有效。在这些条件下,条件培养基中rsTM的表达量高达100 mg/l。定期测量葡萄糖消耗率(G)和乳酸产生率(L),它们的比率(L/G比率)与rsTM的生产力相关。当平均L/G比率较低时,反映出由于培养物的适当氧合导致乳酸产生率较低,rsTM的比生产率会增加。因此,有可能根据通过葡萄糖和乳酸测量计算出的L/G比率来估计蛋白生产力。
