Streamlined 96-well plate method for simultaneous single-cell TCR immune receptor repertoire analysis and immunophenotyping

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Abstract This study describes an efficient immune profiling method by FACS-sorting single cells in a 96-well plate to assess clonotype repertoire diversity, paired-chain information, and cell phenotypes in a single, multiplex RT-PCR-based assay without the use of any specialized equipment. It is a cost-effective alternative to conventional single-cell technologies such as microwell arrays or droplet microfluidics. The 96-well plate contains primers for either T-cell receptor (TCR) / or TCR / chains, together with primers for 30 key T-cell markers. T cells from PBMCs are sorted in a single-cell-per-well format. We conduct RT-PCR library prep using the DriverMapTM Adaptive Immune Receptor (AIR) Repertoire Profiling Assay and sequence the CDR3 region. The results show clonotype frequencies, chain pairing details for / and / chains, and T-cell subtype classifications based on gene expression profiling. This enables in-depth analysis of TCR gene rearrangements at the single-cell level, enhancing understanding of T cell development, proliferation, and clonality, which are important in studying cancer, immunodeficiencies, and autoimmune disorders. Additionally, we can effectively identify and characterize γδ T cells by integrating single-cell TCR sequencing with RNA sequencing data, potentially useful in the development of γδ cancer immunotherapies. Overall, this method provides an efficient way to simultaneously analyze clonotypes and immunophenotypes in a single assay.