Century Therapeutics and Bristol Myers Squibb Enter into a Strategic Collaboration to Develop iPSC-derived Allogeneic Cell Therapies
Century Therapeutics and Bristol Myers Squibb announced today a research collaboration and license agreement (the “agreement”) to develop and commercialize up to four induced pluripotent stem cell (“iPSC”) derived, engineered natural killer cell (“iNK”) and / or T cell (“iT”) programs for hematologic malignancies and solid tumors. The first two programs include a program in acute myeloid leukemia and a program in multiple myeloma, which could incorporate either the iNK or a gamma delta iT platform. Bristol Myers Squibb has the option to add two additional programs which can be nominated subject to certain conditions agreed with Century in the agreement.
“We are pleased to partner with Bristol Myers Squibb, a global leader in oncology and hematology, to further expand our pipeline of iPSC-derived cell therapy products for challenging hematological and solid tumor malignancies,” said Lalo Flores, Chief Executive Officer, Century Therapeutics. “Bristol Myers Squibb is an ideal partner for us because they bring extensive clinical development and scientific expertise in cell therapy that will increase the probability of technical success of these programs. Additionally, this collaboration will enable deployment of our next-generation iPSC platform to develop products targeting malignancies that are difficult for biotech companies to tackle on their own.”
“The collaboration with Century Therapeutics is an important part of our investment strategy in next-generation cell therapies for hematologic and solid tumors,” said Rupert Vessey, M.A., B.M., B.Ch., F.R.C.P., D.Phil., Executive Vice President & President, Research & Early Development, Bristol Myers Squibb. “Century’s iPSC-based gamma delta T and NK cell platforms show promise and are complementary to Bristol Myers Squibb’s existing cell therapy technologies. We look forward to exploring the full potential of the iPSC approach to develop potentially best-in-class allogeneic cell therapies to help patients with hematologic and solid tumor malignancies.”