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Definition and application of good manufacturing process-compliant production of CEA-specific chimeric antigen receptor expressing T-cells for phase I/II clinical trial |
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| Authors: | Ryan D Guest Natalia Kirillova Sam Mowbray Hannah Gornall Dominic G Rothwell Eleanor J Cheadle Eric Austin Keith Smith Suzanne M Watt Klaus Kühlcke Nigel Westwood Fiona Thistlethwaite Robert E Hawkins David E Gilham |
| Institution: | 1. Cellular Therapeutics, Grafton Street, Manchester, M13 9XX, UK 2. Clinical and Experimental Immunotherapy Group, Department of Medical Oncology, Manchester Academic Health Science Centre, Institute of Cancer Sciences, University of Manchester, Wilmslow Road, Withington, Manchester, M20 4BX, UK 3. Clinical Immune and Molecular Monitoring Laboratory, Clinical and Experimental Pharmacology Group, CRUK Manchester Institute, Manchester, UK 4. Targeted Therapy Group, Institute of Cancer Sciences, Manchester, UK 5. Stem Cells and Immunotherapy, NHSBT Liverpool Centre, Speke, Liverpool, UK 6. Stem Cell Research, NHS Blood and Transplant Oxford Centre, University of Oxford, Oxford, UK 7. EUFETS GmbH, Vollmersbachstr. 66, 55743, Idar-Oberstein, Germany 8. Cancer Research UK Drug Development Office, Angel Building, 407 St John Street, London, EC1V 4AD, UK 9. Department of Medical Oncology, Christie Hospital NHS Trust, Wilmslow Road, Withington, Manchester, UK |
| Abstract: | Adoptive cell therapy employing gene-modified T-cells expressing chimeric antigen receptors (CARs) has shown promising preclinical activity in a range of model systems and is now being tested in the clinical setting. The manufacture of CAR T-cells requires compliance with national and European regulations for the production of medicinal products. We established such a compliant process to produce T-cells armed with a first-generation CAR specific for carcinoembryonic antigen (CEA). CAR T-cells were successfully generated for 14 patients with advanced CEA+ malignancy. Of note, in the majority of patients, the defined procedure generated predominantly CD4+ CAR T-cells with the general T-cell population bearing an effector–memory phenotype and high in vitro effector function. Thus, improving the process to generate less-differentiated T-cells would be more desirable in the future for effective adoptive gene-modified T-cell therapy. However, these results confirm that CAR T-cells can be generated in a manner compliant with regulations governing medicinal products in the European Union. |
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