The success of chimeric antigen receptor (CAR) T cell therapies in refractory hematologic malignancies has prompted investigation of their efficacy in solid tumors. AUTO6NG is a dual-transduced GD2-targeting CAR that encodes distinct modules designed to enhance T cell activity in relapsed/refractory neuroblastoma. The ability to detect and precisely quantify vector copy number (VCN) for each integrated vector is essential for assessing the effect of each module on T cell tumor infiltration, persistence, and clinical activity. Droplet digital PCR (ddPCR) enables accurate, sensitive, and absolute quantification of specific nucleic acid sequences. Compared to standard detection of two targets, multiplex ddPCR assays allow simultaneous detection of up to four targets by selective modulation of signal amplitude while retaining the ability to quantify the target. We have developed a multiplex assay based on the two-channel system for simultaneous detection and quantification of three targets in AUTO6NG CAR T cells. The assay was highly specific, sensitive, accurate, and reproducible across time and samples. No differences were observed in measuring VCN between standard duplex and multiplex assays. Our results demonstrate that ddPCR is an accurate and cost-effective method for simultaneous detection of multiple targets in genomic DNA derived from engineered CAR T cells.
Keywords: cell therapy; chimeric antigen receptor T cells; droplet digital PCR; genetically engineered T cells; immunotherapy; vector copy number.
© 2023 The Authors.