posted on 2019-01-18, 00:00authored byShreyas
N. Dahotre, Yun Min Chang, Anna M. Romanov, Gabriel A. Kwong
Antigen-specific
T cells are found at low frequencies in circulation
but carry important diagnostic information as liquid biomarkers in
numerous biomedical settings, such as monitoring the efficacy of vaccines
and cancer immunotherapies. To enable detection of antigen-specific
T cells with high sensitivity, we develop peptide-MHC (pMHC) tetramers
labeled with DNA barcodes to detect single T cells by droplet digital
PCR (ddPCR). We show that site-specific conjugation of DNA via photocleavable
linkers allows barcoded tetramers to stain T cells with similar avidity
compared to conventional fluorescent tetramers and efficient recovery
of barcodes by light with no loss in cell viability. We design an
orthogonal panel of DNA-barcoded tetramers to simultaneously detect
multiple antigen-specific T cell populations, including from a mouse
model of viral infection, and discriminate single cancer-specific
T cells with high diagnostic sensitivity and specificity. This approach
of DNA-barcoding can be broadened to encompass additional rare cells
for monitoring immunological health at the single cell level.