Establishment of a platform for the production of lentiviral vectors for the modification of anti-CD19 CAR-T cells

Immunotherapy using T cells modified with chimeric antigen receptor (CAR) has been proven effective in the treatment of leukemia and lymphomas resistant to chemotherapy. CD19 protein has been shown to be an ideal target because it is expressed on most B-cell tumors and normal B cells, but not in other cells. Recent clinical studies have shown excellent responses of CAR T-cells in a variety of B-cell tumors. Lentiviral vectors are the most commonly used method for genetic modification in clinical trials. This study aimed to develop an efficient platform for lentiviral production and to test the functionality of those vectors so that they can be used in to genetically modify T cells. Transient transfection of HEK293T cells with plasmids in a 3:1:1:1 ratio (transgene:gag-pol:VSV-G:rev) using cationic liposomes and 5 mM sodium butyrate resulted in the highest viral titers. That represents a 17-fold increase in viral titer from polyethylenimine (PEI) transfection. Three methods for lentiviral concentration were used in this work, ultracentrifugation, tangential filtration and ultrafiltration. Membrane ultrafiltration with 100 kDa molecular weight cutoff (MWCO) resulted in the highest recovery rate of viable viral particles, approximately 82%. The viral particles produced by this process have been shown to be functional for the transduction of T cells. In addition, the chimeric receptor (CAR) was shown to be specific against the B cell antigen CD19, resulting in the activation of CAR-T cells and generating cytotoxicity against CD19+ cells in vitro. There was a reduction of approximately 87% of the target cells when analyzed by flow cytometry and an average cytotoxicity of 50% was observed by colorimetric assays. (AU)