M Bunos1, C Hümmer1, E Wingenfeld1, N Sorg1, V Pfirrmann2, P Bader2, E Seifried1,3, H Bönig1,3,4. 1. German Red Cross Blood Service Baden-Württemberg-Hesse, Department of Cellular Therapeutics (GMP), Institute Frankfurt, Frankfurt, Germany. 2. Center of Child and Adolescent Health, Department for Stem Cell Transplantation and Immunology, Goethe University Medical Center, Frankfurt, Germany. 3. Institute for Transfusion Medicine and Immunohematology, Goethe University Medical Center, Frankfurt, Germany. 4. Department of Medicine, Division of Hematology, University of Washington, Seattle, WA, USA.
Abstract
BACKGROUND: The safety and clinical efficacy of adoptive transfer of prospectively isolated antigen-specific T cells are well established. Several competing selection methods are available, one of which is based on immunomagnetic enrichment of T cells secreting IFNγ after incubation with the relevant antigen. The proprietary, GMP-conforming selection technology, called 'cytokine capture system' (CCS) is established in many laboratories for the CliniMACS Plus system. It is robust and efficient, but labour-intensive and incompatible with a single-shift working schedule. An automatic immunomagnetic cell processing system, CliniMACS Prodigy ('Prodigy'), including a protocol for fully automatic CCS execution was recently released. MATERIAL AND METHODS: Feasibility of clinical-scale CMV-specific T-cell selection using Prodigy was evaluated using leukoapheresis products from five healthy CMV sero-positive volunteers. Clinical reagents and consumables were used throughout. RESULTS: The process required no operator input beyond set-up and QC-sample collection, that is, feasibility was given. An IFNγ-secreting target T-cell population was detectable after stimulation, and >2 log-scale relative depletion of not CMV-reactive T cells in the target population was achieved. Purity, that is the frequency of CMV-reactive T cells among all CD3(+) cells ranged between 64 and 93%. CONCLUSION: The CCS protocol on Prodigy is unrestrictedly functional. It runs fully automatically beyond set-up and thus markedly reduces labour. The quality of the products generated is similar to products generated with CliniMACS Plus. The automatic system is thus suitable for routine clinical application.
BACKGROUND: The safety and clinical efficacy of adoptive transfer of prospectively isolated antigen-specific T cells are well established. Several competing selection methods are available, one of which is based on immunomagnetic enrichment of T cells secreting IFNγ after incubation with the relevant antigen. The proprietary, GMP-conforming selection technology, called 'cytokine capture system' (CCS) is established in many laboratories for the CliniMACS Plus system. It is robust and efficient, but labour-intensive and incompatible with a single-shift working schedule. An automatic immunomagnetic cell processing system, CliniMACS Prodigy ('Prodigy'), including a protocol for fully automatic CCS execution was recently released. MATERIAL AND METHODS: Feasibility of clinical-scale CMV-specific T-cell selection using Prodigy was evaluated using leukoapheresis products from five healthy CMV sero-positive volunteers. Clinical reagents and consumables were used throughout. RESULTS: The process required no operator input beyond set-up and QC-sample collection, that is, feasibility was given. An IFNγ-secreting target T-cell population was detectable after stimulation, and >2 log-scale relative depletion of not CMV-reactive T cells in the target population was achieved. Purity, that is the frequency of CMV-reactive T cells among all CD3(+) cells ranged between 64 and 93%. CONCLUSION: The CCS protocol on Prodigy is unrestrictedly functional. It runs fully automatically beyond set-up and thus markedly reduces labour. The quality of the products generated is similar to products generated with CliniMACS Plus. The automatic system is thus suitable for routine clinical application.
Authors: M J Steinhardt; E Wiercinska; M Pham; G U Grigoleit; A Mazzoni; M Da-Via; X Zhou; K Meckel; K Nickel; J Duell; F C Krummenast; S Kraus; C Hopkinson; B Weissbrich; W Müllges; G Stoll; K M Kortüm; H Einsele; H Bonig; L Rasche Journal: J Transl Med Date: 2020-04-21 Impact factor: 5.531