At 싸토리우스 in Ulm, Germany, scientists work on improving cell lines. Their ambition: Get the lines to produce the desired biopharmaceutical protein in large quantities, as fast as possible, and with the right quality. Their work lays the foundation for a faster development of new therapies and more affordable medicine.
This article is posted on Sartorius Blog.
Christoph Zehe and his research team work on developing improved cell lines
싸토리우스’ products and solutions help simplify and speed up all stages of biopharma production - from 세포주 development to downstream processing. Cell lines are the production system used to produce biopharmaceutical proteins. These, in turn, are the 유효 성분 of many live-saving therapies today, including those to treat cancer or rheumatic diseases. And they are hard to come by: The highly complex molecules cannot be synthesized chemically but must be produced by living organisms – for example cells. While these cells express proteins constantly, the challenge is to get them to produce the desired product in large quantities, as fast as possible, and with the right quality.
This is where the Protein Factory team at 싸토리우스 comes in. Christoph Zehe is Research Fellow and has built up the team from scratch: "We are part of the Corporate Research team and work on optimizing the productivity of the cells by editing their genome: How can we prevent unnecessary by-products? How can we speed up or enhance protein production in the cell? How can we identify spots in the cell that are particularly well suited for a high and stable protein production?," asks Christoph.
: “In a first approach, we try to get rid of all the unwanted proteins, garbage in other words, that the cell produces. Today, several cost-consuming filtration and purification steps are required to remove those impurities as they could negatively impact the quality of the biopharmaceutical or compromise patient safety,” Christoph explains. Reducing the protein manufactured in the cell to only essentials, would not only simplify the purification process and improve product quality, it would also help free up energy resources in the cell, enabling it to produce the protein of interest more efficiently.
We try to get rid of all the unwanted proteins, garbage in other words, that the cell produces.
Christoph Zehe, Research Fellow
Addressing the challenge of making biomanufacturing more productive, the team aims to create cells with optimized growth characteristics. Explaining the advantages, Christoph says, "if we can get cells to grow faster, this would lead to higher productivity in manufacturing plants as they would be occupied for shorter time periods. And higher productivity in manufacturing plants means more proteins, means more 유효 성분, means more medicine for more people in a shorter time and at lower cost."
In a third approach the team tries to identify “hot spots” in the genome that work particularly well for high and stable protein production. “In order to get the cell to produce the desired biopharmaceutical protein, we introduce the gene that encodes this desired protein into the genome. This is called 핵산전달감염," Christoph explains. "Unfortunately, not all parts of a cell’s genome are equally well suited for producing proteins. Once the “hot spots” have been discovered, it will be possible to introduce genes into these sites in a targeted manner by using gene editing tools. The benefits: 세포주 development will not only become more reliable and less resource intensive, but also much faster, which, in turn, will – again – speed up the whole biopharma development and production workflow."
The benefits: 세포주 development will not only become more reliable and less resource intensive, but also much faster, which, in turn, will – again – speed up the whole biopharma development and production workflow.
The Protein Factory team is not only trying to make cells grow faster but has also grown vigorously itself. "When I started on Protein Factory work at 싸토리우스 in 2018, it was basically just me and my computer," Christoph remembers. Today, eight people are researching the cell lines of the future. Two more are starting soon. Scientists, Associate Scientists, PhD students, master’s students and interns, all with backgrounds in (cell) biology or biosciences. "We brought the team in from the university, so to speak," Christoph recalls.
The team spends most of its time in the lab. "Our team takes care of the cells, looks after them, cultivates them so they can grow under optimal conditions. And then we modify those cells by genome editing and then observe how the cell changes,” is how Christoph describes what happens in the lab. Other team members, like himself, no longer work directly with the cell cultures, but are involved in technology scouting and monitoring: "I look at what technologies and possible research partnerships are out there, evaluate what's interesting for us and whether we can maybe make a project out of it.”
The place where the work happens: The Cell Culture Technology Center in Ulm, Germany
Learn More About The Cell Culture Technology Center in Ulm, Germany
So far, the Protein factory team has achieved two major steps or enablers, as Christoph calls them: "First, we were able to completely decode the genome of the 세포주 we are working with. We know the complete sequence of letters, exactly where which genes are located and what the sequences are. And secondly, we have found alternative genome editing tools.
Learn More About Corporate Research Acitivities : Interview-Series with Oscar-Werner Reif, Head of Corporate Research and Chief Technology Officer at 싸토리우스
A big step for Christoph: "I would describe myself as an 어플리케이션-oriented scientist. I don't want to deal with things only on a theoretical level. I'm interested in how I can apply things, and thus add value to humanity somewhere.” At 싸토리우스, that's exactly what he found. "The exciting thing for me here is, that I really work with state-of-the-art technology on cutting-edge topics, with which we are at the forefront of cell biology development. And what drives me personally: We are working on the basics here to produce good, affordable, and high-quality drugs and this really makes us a small, but relevant part of the solution in the fight against various diseases."
Watch the video to learn more about 세포주 Development at 싸토리우스:
At 싸토리우스, software development experts work on programs that automate processes in drug manufacturing – helping to bring medicine to patients worldwide faster. This makes them part of the solution...
At two of 싸토리우스’ most Northern sites a team of data analytics experts around Andreas Norén develop some of the world’s leading data-based bioprocess software solutions.
At 싸토리우스 IT, software engineers foster fast-paced digital solutions in an agile environment. As a result, researchers can focus on the important task of their work:...
Helping to realize the promises of biologics for the treatment of cancer, 싸토리우스 is part of the solution in the fight against cancer.
To understand how 싸토리우스 drives innovation, we have initiated a series of interviews with Dr. Oscar-Werner Reif, Head of Corporate Research and Chief Technology Officer.
Oscar-Werner Reif illustrates why 싸토리우스 is fostering collaborations and partnerships with leading experts – and how other scientists can benefit from working with his team.
Oscar-Werner Reif, Head of Corporate Research and Chief Technology Officer, explains why it needs the right people to be innovative and how he wins over talent to work for the company.
Please select your country so we can show you products that are available for you.
The content of our website is always available in English and partly in other languages. Choose your preferred language and we will show you the content in that language, if available.
If you have open questions, please contact our Media Relations team.