Arresting cell growth and thus decreasing cell division potentially lessens the chance for genetic drift in the cell population; this would be of utmost importance for the consistent production of biopharmaceuticals during long periods. The drawback of the addition of well-known synchronizing agents, such as chemotherapeutics, is that they cause a disproportionate accumulation of cellular constituents, leading to cell death. The use of compounds that are naturally synthesized by the cell, as is the case of nucleotides, nucleosides, and bases (Nt/Ns/B), is shown in this work to be a promising tool. The addition of purines and pyrimidines was tested using a CHO cell line producing the secreted form of the human placental alkaline phosphatase enzyme (SEAP). From the chemical alternatives tested, AMP was the most promising compound for protein production improvement; it reduced cell growth and maintained the culture with high cell viability for long periods, while increasing SEAP specific productivity 3-fold. The use of CHO and BHK mammalian cells producing Factor VII and the use of a insect cell line (Sf9) showed that the effect of AMP addition seems to be independent of the r-protein and cell line. With the addition of AMP, accumulation of cells at the S phase was accompanied by an increase of the protein specific productivity. Addition of known synchronizing drugs (aphidicolin and doxorubicin) and application of environmental cell growth arrest strategies (depletion of nutrients and byproduct accumulation) showed also to effectively arrest CHO cell growth. A careful look onto cell cycle distribution in the different scenarios created, shows whether it is important to consider r-protein expression dependency upon cell cycle in process optimization and operation strategies.
Previously it was reported that supplementation of insect cell culture with Lonomia obliqua hemolymph could extend culture longevity (Maranga et al. Biotechnol. Prog. 2003, 19, 58-63). In this work the anti-apoptotic properties of this hemolymph in Spodoptera frugiperda (Sf-9) cell culture were investigated. The presence or absence of apoptotic cells was characterized by light microscopy, flow cytometry, and agarose gel electrophoresis. Hemolymph was fractionated by several ion exchange and gel filtration chromatographic steps for identification of the compounds responsible for this effect. Fractions exhibiting a potent anti-apoptotic effect were isolated and tested in cell culture. A protein of about 51 kDa was identified, isolated, and tested for apoptosis inhibition. Addition of this purified protein to Sf-9 cultures was able to prevent apoptosis induced by nutrient depletion as well as by potent apoptosis chemical inducers such as Actinomycin D. This work confirms that the enhanced culture longevity obtained by supplementation with L. obliqua hemolymph is due to the presence of potent anti-apoptotic factors.
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