Fiche publication
Date publication
septembre 2019
Journal
Bulletin du cancer
Auteurs
Membres identifiés du Cancéropôle Est :
Dr FERRAND Christophe
,
Dr DESCHAMPS Marina
,
Pr DECOT Véronique
Tous les auteurs :
Deschamps M, Decot V, Giverne C, Pinturaud M, Vaissié A, Parquet N, Olivero S, Anne-Claire M, Bay JO, Yakoub-Agha I, Ferrand C
Lien Pubmed
Résumé
The extraordinary and unexpected success of cellular immunotherapy using genetically engineered T-cells to express a chimeric antigen receptor (CAR) targeting CD19, in the treatment of refractory or relapsing B-hematological malignancies, has provided a real therapeutic hope. Indeed, remission rates reach more than 80 % in patients at a stage, without any other possibilities of treatment, notably in the child's acute lymphoblastic leukemia. These results, initially resulting from academic research, led to Food and Drug accreditation for market access of two innovative autologous therapy drugs, Kimryah® and Yescarta®. Based on the impressive clinical results, mainly so far in hematological malignancies (LAL, MM, LBDGC, etc.), the development of several types of cells expressing a CAR receptor suggests a wide range of future applications, particularly in the field of solid tumors. However, while the development of CAR-T cells now appears to be in the hands of private pharmaceuticals companies, the logistical constraints, the cryopreservation and the very high cost of these personalized medicines may ultimately limit their use. The development of academic productions by CAR-T cells could bypass some of these disadvantages. The strong innovation capacity of healthcare institutions associated with research units allows them to identify the ideal tumor target and efficient performing cells. Thus, authorized production platforms could allow for shorter administration times and reasonable production costs for national health systems. The aim of this workshop is to identify the requirements for the academic production of CAR-T cells, while respecting the research standards useful to establish proof of concept, but also at the preclinical development stage, leading in fine to the manufacture, through an authorized pharmaceutical establishment, of the innovative therapy drug, and in accordance with Good Manufacturing Practice (GMP). The ultimate goal is to make these innovative and high-performance medicines available to as many patients as possible.
Mots clés
Academic research, Chimeric Antigen Receptor, Immunotherapy, Immunothérapie, Recherche académique, Récepteur chimérique à l’antigène
Référence
Bull Cancer. 2019 Sep 20;: