Abstract
Multicellular organisms cultivated in continuous stirred tank reactors (CSTRs) are more sensitive to environmental conditions in the suspension culture than microbial cells. The hypothesis, that stirring induced shear stress is the main problem, persists, although it has been shown that these cells are not so sensitive to shear. As these results are largely based on Chinese Hamster Ovary (CHO) cell experiments the question remains if similar behavior is valid for insect cells with a higher specific oxygen demand. The requirement of higher oxygen transfer rates is associated with higher shear forces in the process. Consequently, we focused on the shear resistance of insect cells, using CHO cells as reference system. We applied a microfluidic device that allowed defined variations in shear rates. Both cell lines displayed high resistance to shear rates up to 8.73 × 105 s−1. Based on these results we used microbial CSTRs, operated at high revolution speeds and low aeration rates and found no negative impact on cell viability. Further, this cultivation approach led to substantially reduced gas flow rates, gas bubble and foam formation, while addition of pure oxygen was no longer necessary. Therefore, this study contributes to the development of more robust insect cell culture processes.
Highlights
Multicellular organisms cultivated in continuous stirred tank reactors (CSTRs) are more sensitive to environmental conditions in the suspension culture than microbial cells
Different methods for quantifying the effect of hydrodynamic forces on mainly animal cells, are found in literature. They range from flow chambers containing a nozzle, rheological instruments, capillary tubes to specially designed flow devices where the applied shear is simulated via computational fluid dynamic (CFD)[10,11,12,13,14,15] For insect cell lines little or no objective data are available
We used the shear device with insect and Chinese Hamster Ovary (CHO) cells, but it can be used for other cell lines, viruses, or virus-like particles (VLPs) to determine critical shear stress
Summary
Multicellular organisms cultivated in continuous stirred tank reactors (CSTRs) are more sensitive to environmental conditions in the suspension culture than microbial cells. The hypothesis, that stirring induced shear stress is the main problem, persists, it has been shown that these cells are not so sensitive to shear As these results are largely based on Chinese Hamster Ovary (CHO) cell experiments the question remains if similar behavior is valid for insect cells with a higher specific oxygen demand. Different methods for quantifying the effect of hydrodynamic forces on mainly animal cells, are found in literature They range from flow chambers containing a nozzle, rheological instruments, capillary tubes to specially designed flow devices where the applied shear is simulated via computational fluid dynamic (CFD)[10,11,12,13,14,15] For insect cell lines little or no objective data are available. Existing knowledge and concepts for insect cells are largely based on historical, empirical data, “rule of thumb”[17], and experience with similar cell types
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