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Lactate metabolism shift in CHO cell culture: the role of mitochondrial oxidative activity

Paper ID Volume ID Publish Year Pages File Format Full-Text
33425 44977 2013 8 PDF Available
Lactate metabolism shift in CHO cell culture: the role of mitochondrial oxidative activity

Lactate production is monitored in industrial processes as a crucial metabolite for cultured mammalian cells. Typically lactate is strongly produced during the exponential growth phase, while its net consumption is frequently observed when cells enter into the stationary phase. Such a metabolic shift is desirable because it seems to favor optimal process performance. However, this shift is neither generic nor can it be easily controlled, as the mechanisms modulating lactate production/consumption in cell culture are still under investigation.In this study different lactate profiles were observed in a chemically defined medium for the parental CHO-S cells and a non-recombinant subclone. The initial lactate production phase, which is typical for fast growing cells, was similar for both cell lines. After glutamine depletion the situation changed: the parental cell line promptly switched to net lactate consumption, whereas the subclone continued to produce lactate until glucose was depleted as well.We speculated that the extra lactate production would be ascribed to a different mitochondrial oxidative capacity in the subclone. Therefore, the mitochondrial membrane potential and oxygen consumption were measured for both cell lines. Indeed, a correlation between high lactate production and a reduced oxidative metabolism was found.Interestingly, this particular metabolic phenotype was also strongly influenced by the medium composition: both cell lines underwent a switch to lactate consumption when cultivated in a second medium, while a third one promoted continuous lactate production even for the parental CHO cells. Again, the correlation between lactate profile and oxidative metabolism was confirmed, pointing to a central role of mitochondria on lactate metabolism.

► We compared two non-recombinant CHO cell lines which differ in their lactate profile. ► Adding a glutamine feed on day 5 strongly boosts lactate accumulation. ► Upon depletion of glutamine, control cells start to consume lactate. ► The other cell line continues to produce lactate unless glucose is depleted as well. ► Mitochondrial oxidative metabolism is high under ‘lactate consuming conditions’.

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Lactate metabolism shift in CHO cell culture: the role of mitochondrial oxidative activity
Database: Elsevier - ScienceDirect
Journal: New Biotechnology - Volume 30, Issue 2, 25 January 2013, Pages 238–245
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Physical Sciences and Engineering Chemical Engineering Bioengineering