Health Care

The Art And Science Of Cell Food: How Smart Media Formulations Drive Cell Culture Performance

The cell culture trinity

Cell culture processes are the technological foundation of the biopharmaceutical industry. The continued revolution in health care, driven by biological drugs like antibodies and vaccines, has raised the importance of high-performing cell culture for the biopharmaceutical industry.1,2,3

Biopharmaceutical companies need to ensure productivity, supply security, quality and consistency in their cell culture processes.1,3 There is a drive to bring new products to market as quickly as possible, and also pressure for originators to compete with cost-effective biosimilars.

Efficient drug production through cell culture depends on the complex interplay between the drug molecule, the cell, and the process including the cell culture medium.

When done well, this interplay facilitates successful production of biological drugs at all scales: from small batches of fully personalized cell therapies to high-volume monoclonal antibodies made in large bioreactors. It also enables the development and commercialization of cell-based vaccines and vectors that are becoming increasingly important.3

This is where Evonik earns its place at the cutting edge of biopharma. By providing smart cell culture ingredients and expert support, the productivity of research and manufacturing sites can be optimized while ensuring the highest quality, consistency and cost effectiveness of outputs.

How to provide your cells with a unique culinary experience

The aim of cell culture media is to provide the optimum nutrients, accessible in the right quantities and with a stable composition that balances cell growth and productivity.

Scientists discovered that coupling amino acids into a peptide can solve many of the challenges inherent in the amino acids used in cell culture and satisfy the full range of needs for each cell culture medium.4,5,6

1. How can you overcome the solubility challenges inherent in key amino acids?

L-tyrosine is an important ingredient in cell media. But with a solubility of less than 0.5g/liter at neutral pH, you cannot reach high enough concentration in a neutral feed to fulfil the cell’s needs. Since pH affects solubility, you could use a separate alkaline feed to fix this problem, but that adds complexity and risk to the process and requires a fine balancing act. That is why Evonik developed cQrex® GY (glycyl-L-tyrosine dihydrate) and cQrex® AY (L-alanyl-L-tyrosine dihydrate). These peptides are up to 50 times more soluble in neutral pH compared to free L-tyrosine. They are efficiently taken up and metabolized by the cell, making full replacement of L-tyrosine possible.

L-cysteine is an important building block of biomass and recombinant proteins and is also instrumental in reducing oxidative stress. Yet the oxidization of L-cysteine to poorly soluble L-cystine is catalyzed by elements commonly present in cell culture media. Using the same peptide toolbox, Evonik developed the peptides cQrex® AC (N,N'-di-L-alanyl-L-cystine) and cQrex® KC (N,N'-di-L-lysyl-L-cystine dihydrochloride), which are around 30 times and 1000 times more soluble than L-cystine, respectively. They can be used as part of a neutral feed, or to increase the concentration of Cys-equivalents in the basal medium to optimize cellular nutrition and further improve process performance. The peptides can also act as a stabilizer in basal media to prevent precipitation of free L-cystine under oxidizing conditions.

2. How can you protect key amino acids from chemical degradation?

L-glutamine is typically present at high concentrations in cell media as a carbon source for growth and as a building block for proteins. However, L-glutamine has limited chemical stability at neutral pH and its degradation products can reduce cell culture performance and final product quality.

Evonik offers two glutamine peptides, cQrex® AQ (L-Alanyl-L-glutamine) and cQrex® GQ (Glycyl-L-Glutamine hydrate), that can replace free glutamine in basal media or feeds.

Stability of an aqueous solution (10 g/L) of L-glutamine and L-alanyl-L-glutamine (cQrex® AQ) at 37°C and pH 7

 

3. How can you balance cell growth and productivity?

Uptake and peptide conversion can differ between glutamine peptides and process performance can be optimized by choosing the right glutamine peptide for the right cell line and application.

For example, glycyl-L-glutamine was found to be taken up at a slower rate than L-alanyl-L-glutamine by Chinese hamster ovary (CHO) cells. This results in a slightly reduced growth rate, but a higher antibody titer.6 It is likely that the reduced growth rate corresponds to lower rates of ammonia and lactate formation, while also allowing for higher antibody productivity.

Other additives to cell culture media, such as the keto acid, α-ketoglutaric acid (AKG), can further help to boost performance and protect cells against oxidative stress or aging.

Cells are what they eat: give them the best nutrition for the best performance

Like a cell culture connoisseur, the right selection of chemically defined ingredients enables biopharmaceutical companies to realize substantial process improvements to help prolong longevity, solubilize critical constituents, and better manage the concentration of essential nutrients in cell culture. Such ingredients can optimize consistency, reduce risk, and boost productivity.

To learn more about Evonik’s cell culture ingredients and custom solutions, please visit https://healthcare.evonik.com/en/biopharma/cell-culture.

References

  1. Yao T, Asayama Y. Animal‐cell culture media: History, characteristics, and current issues. Reprod Med Biol. 2017;16(2):99–117.
  2. Carlson, B. Biopharma Demand Is Driving the Cell Culture Market. Genetic Engineering & Biotechnology News. 28 July, 2015. Available at: https://www.genengnews.com/insights/biopharma-demand-is-driving-the-cell-culture-market/ Last accessed February 2021.
  3. McKinsey & Company. Rapid growth in biopharma: Challenges and opportunities. 01 December 2014. Available at: https://www.mckinsey.com/industries/pharmaceuticals-and-medical-products/our-insights/rapid-growth-in-biopharma. Last accessed February 2021.
  4. Schilling M, et al. Dipeptides in cell culture – tools for performance increase and risk reduction. Poster presented at Cell Culture Engineering XVI. May 6-11, 2018, Tampa, Florida, USA.
  5. Fürst P. New developments in glutamine delivery. J Nutr. 2001;131(9 Suppl.):2562S–8S.
  6. Sánchez-Kopper A, et al. Tracking dipeptides at work‑uptake and intracellular fate in CHO culture. AMB Express. 2016;6(1):48.

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