Physiological (TCR-like) regulated lentiviral vectors for the generation of improved CAR-T cells

Abstract

Background. Chimeric antigen receptor (CAR) T cells directed against CD19 have achieved impressive outcomes for the treatment of relapsed/refractory B lineage lymphoid neoplasms. However, CAR-T therapy still has important limitations due to severe side effects and the lack of efficiency in 40-50% of the patients. Most CARs-T products are generated using retroviral vectors with strong promoters. However, high CAR expression levels can lead to tonic signalling, premature exhaustion and over-stimulation of CAR-T cells, reducing efficacy and increasing side effects. TCR-like expression of the CAR through genome editing resulted in enhanced anti-tumour potency, reducing tonic signalling and improving CAR-T phenotype. In this manuscript, we searched for LVs that mimic the TCR expression pattern as a closer-to-clinic alternative for the generation of improved CAR-T cells. Methods. Different LVs containing viral and human promoters were analysed to select those that closely mimic a TCR-like kinetic profile upon T-cell activation. WAS gene proximal promoter-driven LVs (AW-LVs) were selected to express a second generation 4-1BB CD19 CAR (ARI-0001) into T cells to generate AWARI CAR-T cells. TCR-like AWARI and EF1-driven ARI CAR T cells were analysed for in vitro and in vivo killing efficiency using leukaemia and lymphoma cellular models. Tonic signalling, exhaustion markers and phenotype were determined by flow cytometry. Large-scale automated manufacturing of AWARI CAR-T cells was performed in a CliniMACs Prodigy bioreactor. Results. Our data showed that LVs expressing the transgene through the WAS gene proximal promoter mimic very closely the TCR (CD3) expression pattern kinetic upon TCR stimulation or antigen encounter. Compared to EF1-driven ARI CAR-T cells, AWARI CAR-T cells exhibited a higher proportion of naive/stem cell memory T cells with less exhausted phenotype after efficient killing of CD19+ cells both in vitro and in vivo. AWARI CAR-T cells also showed lower tonic signalling and reduced secretion of pro-inflammatory cytokines and were efficiently manufactured in large-scale GMP-like conditions. Conclusions. WAS-gene-promoter driven LVs can be used to generate physiological 4-1BB-CAR-T cell products with lower tonic signalling, improved phenotype and a safer profile. We propose the use of TCR-like LVs as an alternative to strong-promoter driven LVs for the generation of CAR-T products.