Strong and sustained effector function of memory- versus naïve-derived T cells upon T-cell receptor RNA transfer: Implications for cellular therapy
Current protocols used to select CMV-specific T cells for adoptive immunotherapy focus on virus-specific memory T cells from seropositive donors. However, this strategy is not feasible in patients undergoing allogeneic haematopoietic stem-cell transplantation (HSCT) from CMV-seronegative donors. Here, we redirected T cells of CMV-seronegative donors with a human genetically engineered TCR recognizing an HLA-A*0201-binding peptide epitope of CMVpp65. To facilitate clinical translation of this approach, we used a non-viral expression system based on in vitro transcribed RNA and electroporation. Although memory and naive-derived T-cell subsets were both efficiently transfected by TCR-RNA, memo…
Generation of CD8+T cells expressing two additional T-cell receptors (TETARs) for personalised melanoma therapy
Adoptive T-cell therapy of cancer often fails due to the tumor cells' immune escape mechanisms, like antigen loss or down-regulation. To anticipate immune escape by loss of a single antigen, it would be advantageous to equip T cells with multiple specificities. To study the possible interference of 2 T-cell receptors (TCRs) in one cell, and to examine how to counteract competing effects, we generated TETARs, CD8(+) T cells expressing two additional T-cell receptors by simultaneous transient transfection with 2 TCRs using RNA electroporation. The TETARs were equipped with one TCR specific for the common melanoma antigen gp100 and one TCR recognizing a patient-specific, individual mutation of…