Clinical grade expansion protocol for the manufacture of thymus-derived Treg cells for clinical application
Giorgia Fanelli, Philippa Marks, Apoorva Aiyengar, Marco Romano, Sakina Gooljar, Sandeep Kumar, Michael Burch, Giovanna Lombardi
Abstract
BACKGROUND: Adoptive transfer of regulatory T cells (Tregs) has provided promising results in treating autoimmune disorders, transplant rejection and graft versus-host disease in early clinical trials. However, major challenges remain for developing a standardized and robust good manufacturing practice (GMP)-compliant cell product which is severely hampered by low frequency of Tregs in circulation and laborious ex vivo expansion. METHODS: Paediatric thymuses routinely obtained during heart surgery have been shown by us and others to be a valuable source of large numbers of pure Tregs (Thy-Tregs). Here we show results from our process development approach including systematic laboratory-scale testing of activation reagents, restimulation timing, and cryopreservation to translate our expansion protocol of Thy-Tregs into a clinical grade cell product. RESULTS: enrichment were expanded with αCD3/αCD28 beads in the presence of Rapamycin and IL-2 for 10-23 days using G-Rex bioreactors. We successfully embedded bead removal and final formulation of a cryopreserved cell product ready to be used at bedside transfusion. CONCLUSION: This process has proved the capability of efficiently producing high number of functional Thy-Tregs, which will be administered as cell therapy in children undergoing heart transplantation (ATT-Heart, ISRCTN15374803), and enhancing the potential of using expanded Thy-Tregs for broad-ranging therapeutic applications.