How to Optimize Media and Improve Protein Production with Defined Supplements

This is great question. I will try to address this from 2 different perspectives.

The first way to think about a benefit is through logistics. When we have used Cell-Ess as a feed, we found the increased output occurred early. We reached the max yield of the control group 2 days earlier than in the control. In this case you could have the benefit of ending a run 2 days earlier.

The other half to consider is protein quality. Quality is measured through many assays. The quality of a protein is driven by the endoplasmic reticulum and Golgi apparatus. Cell-Ess may support better health of both of these organelles. We are currently running assays to access what, if any, are the effects of Cell Ess on protein quality.

This is an important question. We wanted to understand if Cell-Ess could affect downstream processing. To date we have not seen any effect in HPLC purification or Protein A purification. At this point we do not anticipate any effect of Cell-Ess on the downstream purification process.

This is an interesting question. I believe it is asking what can happen with a new additive or increasing protein production. Cell Ess while increasing protein production does not alter the metabolic profile of many of the common metabolites. As an example glutamate, lactate, and ammonia are unchanged with the addition of Cell Ess.

Cell Ess has been used with a variety of cell types. Cell Ess has been used in cell lines and primary cells. In cell lines Cell Ess has been used a549, HEK 293, VERO, CHOk1, and many other cancer cell lines both adherent and suspension type of cells. For cell lines there is a adaptation that is required and possible optimization required. For example there are some cancer models using cell lines that are hormonally dependent in those cases it may require the addition of the needed hormone like estrogen.

Cell Ess also works with primary cells. In the case of primary cells there is no need for adaption but there may still be the need for optimization based on the goals of the research. For example there are some cells that require the presence of TGF-b for their function. In those cases you would have to add exogenous TGF-b.

We designed Cell Ess to be used across many cell types for that reason there may be cell specific or lab specific optimization. Once the optimization is determined the results have been consistent and reproducible.

This is an interesting question. We have tried both methods. The most common media used for bioproduction is chemically defined media. In many cased there are internal proprietary formulations. We tested Cell Ess in a chemically defined system as part of an optimization strategy to see if we could improve performance of the system. We found a benefit if we added Cell Ess as either an initial supplement or as feed.

In serum containing systems we adopted the system to serum free and then were able to see similar performance as was in the serum containing media.

Cell Ess has been used in the adaptation of Vero cells. There are several groups currently testing for viral infection. There are other options instead or going completely animal free. It is possible to go mostly animal free a combination of Cell Ess and 0.1% FBS and maintain most characteristics of the original culture. There are also other supplements like adding BSA that may be beneficial. For Vero cells as with other cells with optimization, Cell Ess has worked well.

The increase in protein production occurs early and stays higher than control.

The costs for FBS vary greatly. This question is difficult to answer as the type and source of FBS are key drivers for the cost of FBS. In the past year the price of FBS has been increasing. Cell-Ess currently costs less than many FBS choices that it can replace. The other side of the question is indirect costs. The use of FBS typically is preceded by multiple lot testing which has time and resource costs. In some cases groups will buy entire lots and then there are costs associated with tying up a large sum of money, carrying unused inventory for years and long term material storage in a freezer.

The second part of the question is the interesting, as the one of the primary reasons for switching away from FBS in therapeutics is to ensure consistency in the product. According to a few of the partners we are working with price of having an inconsistent product is more costly than any of the raw material costs. As far as doing pure dollar to dollar cost analysis it is difficult to deliver a meaningful number without knowing the many variables in play.

Cell Ess is currently in trials by several groups. There is a DMF for Cell Ess.

This is a great question. We have only measured the target protein increase. We do not know if the Cell Ess also increases endogenous protein production.

We are currently working on the glycosylation profile and should have more data in the next few months.