Servier, the independent international pharmaceutical company, and MaSTherCell SA, the full-service CDMO specializing in the delivery of optimized process industrialization capacities to cell therapy organizations, announce the signing of a master service agreement for the development of a manufacturing platform for allogeneic cell therapies.
Under the master service agreement, MaSTherCell is developing a CAR-T cell therapy manufacturing platform, which will enable industrial and commercial manufacturing of Servier cell therapy products. This is a critical step in development of these products for later stage clinical trials.
Cell therapies have shown promising results in treating cancers. However so far, successful development has been mainly limited to autologous therapies. This approach, where the patient’s cells are collected then used to create a drug for that specific patient, is limited by the lack of possibility of industrialized manufacturing, thus restricting its access to few patients. Allogeneic therapies, or off-the-shelf treatments, potentially offering the technology to a higher number of patients, are developing very rapidly. However the challenges of their manufacturing scale-up still lie ahead.
One of the most advanced cell therapies is based on CAR-T technology, where the T-cells are armed with a Chimeric Antigen Receptor. Servier is developing UCART-19, with two clinical trials currently ongoing in Europe, in relapsed or refractory B cell acute lymphoblastic leukaemia (B-ALL), in paediatric and adults patients.
Servier selected MaSTherCell because of its leading global cell therapy CDMO position as well as its essential broad expertise in immunotherapy products. MaSTherCell has a track record of designing and delivering cost-effective cell therapy manufacturing platforms.
MaSTherCell anticipates that it will complete the development of the initial CAR-T platform in 2018. This will then be an efficient complement to the bioproduction facilities that Servier is developing at its site at Gidy (France), which will mainly focus on the production of antibodies.
“This partnership will result in developing solutions for one of the biggest challenges to the ongoing development of the cell therapy sector. MaSTherCell has quickly built the most extensive CDMO experience in manufacturing and process industrialization development in the cell therapy industry,” said Denis Bedoret, CBO at MaSTherCell. “This enables MaSTherCell to leverage that experience to deliver solutions to contribute to the Servier cell therapy pipeline. We will thus be able to directly contribute to delivery of life-saving cell therapy treatment to patients.”
“The scale up of manufacturing for late scale clinical trials still remains one of the biggest industry-wide challenges in the cell therapy sector, and especially in a CAR-T field still in its infancy,” said Marielle Anger-Leroy, director of biotechnology industrial development at Servier. “Being pioneers with these innovative therapies means that we have to find the best partners to maximize the chances of delivering these therapies to patients with few alternative options.”
UCART19 is an allogeneic CAR T-cell product candidate developed for treatment of CD19-expressing hematological malignancies, gene edited with TALEN. UCART19 is initially being developed in acute lymphoblastic leukemia (ALL). Cellectis’ approach with UCART19 is based on the preliminary positive results from clinical trials using autologous products based on the CAR technology, and has the potential to overcome the limitation of the current autologous approach by providing an allogeneic, frozen, “off-the-shelf” T cell based medicinal product.
In November 2015, Servier acquired the exclusive rights to UCART19 from Cellectis. Following further agreements, Servier and Pfizer began collaborating on a joint clinical development programme for this cancer immunotherapy. Pfizer has exclusive rights from Servier to develop and commercialize UCART19 in the United States, while Servier retains exclusive rights for all other countries.