Yang S T, Shu C H
Department of Chemical Engineering, Ohio State University, Columbus 43210, USA.
Biotechnol Prog. 1996 Jul-Aug;12(4):449-56. doi: 10.1021/bp960037g.
The continuous production of murine granulocyte-macrophage colony-stimulating factor (GM-CSF) by recombinant yeast cells immobilized in a fibrous-bed bioreactor was studied. A high cell density of approximately 68 g/L and a GM-CSF productivity of approximately 3.5 mg/L.h were attained in the fibrous-bed bioreactor-fed with a rich (nonselective, pH 6.7) medium at a dilution rate of 0.16 h-1. The GM-CSF production was stable even though the fraction of plasmid-carrying cells in the reactor effluent gradually dropped below 5% over a period of 2 weeks. At the end of that period, the immobilized cells in the fibrous matrix still had a high fraction, approximately 26%, of plasmid-carrying cells. Similar results were obtained with reactors operated at 0.05 h-1 dilution rate and pH 4.0. Although the GM-CSF production was lower at pH 4, the reactor was stably operated for over 4 weeks without contamination or significant loss of productivity. The stable long-term GM-CSF production from the fibrous-bed bioreactor was attributed to the effect of cell immobilization on plasmid stability. Because GM-CSF production was growth-associated, as was found in batch fermentation with free cells, this stabilization effect cannot be attributed solely to the reduced cell growth in the immobilized cell environment. Plasmid-carrying cells were preferentially retained in the fibrous matrix, perhaps because their abilities to adhere to the fiber surface and to form cell aggregates were higher than those of plasmid-free cells.
研究了固定在纤维床生物反应器中的重组酵母细胞持续生产小鼠粒细胞-巨噬细胞集落刺激因子(GM-CSF)的情况。在以0.16 h⁻¹的稀释率向纤维床生物反应器中加入丰富(非选择性,pH 6.7)培养基时,可获得约68 g/L的高细胞密度和约3.5 mg/L·h的GM-CSF生产率。即使在2周的时间内,反应器流出物中携带质粒的细胞比例逐渐降至5%以下,GM-CSF的生产仍保持稳定。在这段时间结束时,纤维基质中固定化细胞仍有大约26%的携带质粒的细胞。在以0.05 h⁻¹的稀释率和pH 4.0运行的反应器中也获得了类似的结果。尽管在pH 4时GM-CSF产量较低,但该反应器稳定运行了4周以上,没有受到污染或生产率显著下降。纤维床生物反应器中GM-CSF的长期稳定生产归因于细胞固定化对质粒稳定性的影响。由于GM-CSF的产生与生长相关,这与游离细胞的分批发酵情况相同,所以这种稳定作用不能仅仅归因于固定化细胞环境中细胞生长的减少。携带质粒的细胞优先保留在纤维基质中,可能是因为它们附着在纤维表面和形成细胞聚集体的能力高于无质粒的细胞。
