Summary
Everyone has stem cells throughout their bodies. These cells have the potential to develop into many different type of cells, and they act as a repair system for the body. Induced pluripotent stem cells (iPSC) are a specialised type of stem cells that can be generated directly from cells donated by fully consenting individuals such as blood or skin cells, and can be used for modelling of diseases. Afterwards, the cells can be converted into any cell in the body.
iPSC cells are increasingly becoming the norm for health researchers, and testing on these cells is often a first step in searching for a new drug candidate. Using these cell lines means that researchers can cut down on the numbers of animals used in testing, eliminating costs and sparing animal lives, which is in line with the EU’s push to replace, reduce, and refine the use of animals in research, known as the 3Rs.
The first EBiSC project centred around the establishment of the European Bank for Induced Pluripotent Stem Cells, a stem cell bank that could provide researchers with high-quality iPSC lines, data and cell services. You can read more about the achievements of the first EBiSC project here: https://www.ihi.europa.eu/projects-results/project-factsheets/ebisc
Ensuring the sustainability of EBiSC
Building on the success of EBiSC, the EBiSC2 project set out to ensure that the stem cell bank could become a self-sustaining, not-for-profit organisation. It is a central repository, meaning that the EBiSC bank collects stem cells and makes them available for other researchers to use. The cell lines provided by EBiSC are guaranteed to be of high quality, and were obtained ethically and legally, which means that they are robust and ready-to-use.
The EBiSC2 project delved deep into the structure of the stem cell bank, and explored whether everything was as stringent as it could possibly be. The researchers expanded the scope of the original bank, adding more cell lines to the catalogue such as pre-differentiated cells, and examined different protocols and standards to ensure that the stem cell bank was adhering to the highest possible standards. Nearly 1000 different iPSC cell lines are now stored in the bank in an open catalogue, covering more than 45 genetic diseases. Genomic and clinical datasets are also available, and EBiSC is providing services to help companies understand how best to use these products and define protocols, and to help support various research studies.
Patient involvement was crucial for EBiSC, especially since patients are donating their tissues to the bank. EBiSC2 worked with a patient organisation and found that patients are motivated to donate samples because they want progress in scientific research. The project then developed an informational page to help patients to understand how their tissue samples will help to further scientific research and develop future treatments for diseases.
High-quality guarantee of stem cell lines
The clear benefit that EBiSC brings to industry and SMEs in particular is the high quality of these cell lines. Companies can trust that the cell lines are in line with industrial standards, and that the source samples were obtained legally and ethically. All cell lines available from the EBiSC bank have a self-renewing identity, are classed as pluripotent, are sustainable and have full characterization datasets available.
If you’re interested in accessing cell lines for your research project, the EBiSC2 iPSC cell line bank is a source of high-quality, well-characterised, pluripotent, ethically and legally compliant cell lines to support the development of better medicines in Europe.
Achievements & News
December 2022
IMI projects EBiSC2 and FAIRplus are ensuring that EBiSC's data is FAIR, i.e. findable, accessible, interoperable and reusable; this should...
Induced pluripotent stem cells (iPSCs) can be generated from tissues of people diagnosed with certain diseases, as well as healthy people, and then used to generate specific cell-types, which can then be used by researchers to carry out experiments.
Making iPSC lines from scratch is laborious and complicated, and re-using existing cell lines is also fraught with challenges. To help fix these problems, in 2014 IMI set up EBiSC, the European Bank for induced pluripotent Stem Cells. A subsequent project, EBiSC2, builds on EBiSC’s work.###
EBiSC allows researchers to deposit their cell lines into a centralised repository, and enables distribution to the wider scientific community via a public catalogue, along with their relevant datasets. In addition, EBiSC can also help with reprogramming, gene-editing and characterising new iPSC lines and sharing knowledge and best practices. Depositors retain full ownership rights on their lines and can continue using and sharing them as they choose. Customers can quickly access iPSC lines from the desired donor background, selecting for age, sex, disease or phenotype, among other things.
As the lines are listed on a public catalogue, the impact of their research is highly visible and publications and datasets are clearly linked to the relevant cell lines. The project is currently aware of more than 100 publications using EBiSC iPSC lines, with likely many more available and in progress.
Find out more
- Read the article in full
IMI’s EBiSC project has established a centralised, not-for-profit human induced pluripotent stem cell (iPSC) bank providing researchers across academia and industry with access to scalable, cost-efficient and consistent, high quality iPSCs for use in research and medicines development.### Since its creation in 2014, the bank has grown considerably and now provides a large range of iPSC lines and services to academics, non-profit organisations and companies. Projects generating iPSCs can also make their cell lines sustainable by depositing them in the EBiSC catalogue, ensuring secure long-term storage and simplified access and distribution.
The new EBiSC2 project builds on the achievements of the original EBiSC project, including improving its services and providing new iPSC lines and differentiated cell products. To ensure the project continues to offer products and services that are relevant to the scientific community, EBiSC is running a survey. The survey is open until the end of October.
- Complete the survey
- Find out more about EBiSC and EBiSC2
Participants
Show participants on mapEFPIA companies
- Bayer Aktiengesellschaft, Leverkusen, Germany
- Eli Lilly And Company LTD, Basingstoke, United Kingdom
- Fujifilm Cellular Dynamics Inc, Madison, United States
- H. Lundbeck As, Valby, Denmark
- Institut De Recherches Servier, Suresnes, France
- Janssen Pharmaceutica Nv, Beerse, Belgium
- Novo Nordisk A/S, Bagsvaerd, Denmark
- Pfizer Limited, Sandwich, Kent , United Kingdom
- Takeda Pharmaceuticals International AG, Glattpark-Opfikon (Zurich), Switzerland
- UCB Biopharma, Brussels, Belgium
Universities, research organisations, public bodies, non-profit groups
- Bioneer A/S, Horsholm, Denmark
- Department of Health, Leeds, United Kingdom
- Fraunhofer-Gesellschaft zur Förderung der angewandten Forschung e.V., München, Germany
- Katholieke Universiteit Leuven, Leuven, Belgium
Small and medium-sized enterprises (SMEs) and mid-sized companies (<€500 m turnover)
- Arttic, Paris, France
- Arttic Innovation GMBH, Munchen, Germany
Third parties
- Fraunhofer Uk Research Limited, Glasgow, United Kingdom
Participants | |
---|---|
Name | EU funding in € |
Arttic | 125 101 |
Arttic Innovation GMBH | 148 160 |
Bioneer A/S | 374 625 |
Charite - Universitaetsmedizin Berlin (left the project) | 287 769 |
Department of Health | 300 208 |
Fraunhofer-Gesellschaft zur Förderung der angewandten Forschung e.V. | 2 841 584 |
Katholieke Universiteit Leuven | 236 575 |
Third parties | |
Name | Funding in € |
Fraunhofer Uk Research Limited | 285 625 |
Total Cost | 4 599 647 |