1. Home
  2. News
  3. Axol Bioscience introduces CiPA-validated human stem cell-derived ventricular cardiomyocytes to help improve drug discovery

Axol Bioscience introduces CiPA-validated human stem cell-derived ventricular cardiomyocytes to help improve drug discovery

Adam Tozer

Comprehensive in vitro pro-arrhythmia assay used to validate Axol’s cardiomyocytes for cardiac safety testing

Cambridge and Edinburgh, UK, 7 June 2022: Axol Bioscience Ltd. (Axol), an established provider of iPSC-derived cells, media, and characterization services for life science discovery, today announced that its human induced pluripotent stem cell (iPSC)-derived ventricular cardiomyocytes have undergone comprehensive in vitro pro-arrhythmia assay (CiPA) validation. Using this assay, the cells were shown to be suitable for measuring cardiotoxicity, offering scientists a robust cardiac model for drug discovery and screening.

Axol’s human iPSC-derived ventricular cardiomyocytes are manufactured at scale according to strict quality control standards using ISO 9001-accredited quality management systems, providing a continuous source of cells from the same genetic background for use in multiple experiments. This offers a physiologically relevant in vitro research model of human heart cells to reliably and repeatably test drug candidates for cardiotoxicity at scale.

With the advent of human iPSC-derived cardiomyocytes, the US Federal Food and Drug Administration Agency (FDA) launched a working group to assess the utility of these cells in reproducing cardiotoxicity in a dish, known as CiPA*. The assay tests cells with 28 compounds that are known to be cardiotoxic and induce the fatal arrhythmia “Torsades de Pointes”. Clyde Biosciences, a CRO that specializes in cardiotoxicity assays, used this assay to validate Axol’s cardiomyocytes for cardiac safety testing. Using these cells could help researchers to identify unsuitable drug candidates earlier in the drug discovery process and improve the number of promising pre-clinical drug candidates that translate through to clinical trials and to patients.

Liam Taylor, CEO, Axol Bioscience, said: “Scientists need cells and reagents they can rely on to make meaningful assessments of drug candidate toxicity, before progressing candidates to the clinic.

We’re both excited and proud to demonstrate the suitability of our human iPSC-derived ventricular cardiomyocytes for toxicity testing. Axol’s stringent quality control standards mean we have the capability to produce reliable, validated cells that scientists can use to assess a compound’s cardiac liability and, ultimately, help to improve the drug discovery process.”

Prof. Godfrey Smith, CSO, Clyde Biosciences, added:As a core member of the CiPA initiative, we’re pleased to have supported Axol’s cell development and helped the team assess the performance of its cardiomyocytes. Having run the CiPA protocol on Clyde’s proprietary CellOPTIQ platform, and provided analysis and interpretation of the data, we confirm our data indicates that Axol’s cardiomyocytes meet the requirements for predictive in vitro pro-arrhythmia screening.

For further information about Axol’s human iPSC-derived cardiomyocytes, please visit:  https://axolbio.com/cells/cardiovascular-system/

Dr. Jamie Bhagwan, Group Leader, Axol Bioscience will present data describing the development of Axol’s iPSC-derived cardiomyocytes alongside Clyde Biosciences’ Prof. Godfrey Smith at a free-to-attend webinar on June 9th, at 6 PM BST / 1 PM ET / 10 AM PT. Register here: https://register.gotowebinar.com/register/1085358037527496720?hss_channel=lcp-

Axol will also be attending the International Society for Stem Cell Research (ISSCR) Annual Meeting in San Francisco, USA from June 15–18, 2022. Visit booth 440 to learn more.

* About CiPA: https://cipaproject.org/about-cipa/#About

About Axol Bioscience

Axol Bioscience Ltd has been an industry leader for nearly a decade in the supply of human iPSC-derived cells from healthy and disease-state donors. Those products are supported and enhanced by optimized cell culture systems and media formulations that ensure quality, consistent cell behaviors, and expedited maturation. In addition, Axol is an experienced provider of custom services for disease modeling and toxicity screening to support drug discovery.

To best serve a growing drug discovery customer base, Axol continues to add in-demand assay capabilities to better characterize product cell lines and provide custom services. Most recently, Axol added electrophysiology capability and expertise with an in-house multi-electrode array system and a dedicated scientific thought leader in the area to guide customers and collaborators through relevant data sets for the best disease or functional cell models for their applications.

Follow Axol Bioscience on Twitter @axolbio and LinkedIn @Axol Bioscience Ltd

Click here for more information on our CiPA-validated cardiomyocytes

Our human iPSC-derived cardiomyocytes are CiPA-validated and ready to transform cardiotoxicity assays, globally

Share this post:

Previous
Axol Bioscience raises £3.2 million GBP (c. $4.2 million USD)
Next
7 Reasons Why You Should Use Axol’s Human iPSC-Derived Motor Neurons in Your Assays