Abstract
Abstract Multi-analyte single cell technologies have potential to greatly accelerate antibody discovery by identifying antigen-specific B cells. Barcode Enabled Antigen Mapping (BEAM) provides a high-throughput, multimodal analysis of antigen-bound B cells (BEAM-Ab) using 10x Genomics Chromium Single Cell Immune Profiling v2 Solution and novel computational approaches to discover B-cell receptor (BCR) sequences for further functional characterization. To demonstrate the antigen sensitivity of BEAM-Ab, we spiked in 5% Hen Egg Lysozyme (HEL) and 5% gp120 transgenic B cells in 90% wild type non-transgenic splenocytes. The cells were screened using a panel of barcoded antigens and then CD19+PE+ (antigen+) B cells were isolated using flow cytometry. Single cell gene expression, BCR, and antigen barcode analysis indicated clonotype specificity to the respective antigens in the sorted cells. Furthermore, we demonstrated BEAM-Ab specificity by analyzing a convalescent COVID patient sample against an antigen panel containing five different COVID antigens and a negative control. Analysis of this COVID sample suggests the clonal expansion of B cells recognizing the ectodomain of the wild type SARS-CoV2 spike protein, receptor binding domain of spike protein, and the ectodomain of the D614G mutant spike protein. We did not observe any clonal expansion to Omicron-specific antigen or the non-specific negative control in our dataset. Our data demonstrates that BEAM-Ab is an effective antibody discovery tool. BEAM-Ab unlocks the ability to rapidly screen large numbers of samples with an accurate single cell resolution and antigen specificity, with the entire workflow generating the candidate sequences just one week after sample processing.
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