Scientific Reports (Jun 2021)

Extended live-cell barcoding approach for multiplexed mass cytometry

  • Muharrem Muftuoglu,
  • Li Li,
  • Shaoheng Liang,
  • Duncan Mak,
  • Angelique J. Lin,
  • Junxiang Fang,
  • Jared K. Burks,
  • Ken Chen,
  • Michael Andreeff

DOI
https://doi.org/10.1038/s41598-021-91816-w
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 13

Abstract

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Abstract Sample barcoding is essential in mass cytometry analysis, since it can eliminate potential procedural variations, enhance throughput, and allow simultaneous sample processing and acquisition. Sample pooling after prior surface staining termed live-cell barcoding is more desirable than intracellular barcoding, where samples are pooled after fixation and permeabilization, since it does not depend on fixation-sensitive antigenic epitopes. In live-cell barcoding, the general approach uses two tags per sample out of a pool of antibodies paired with five palladium (Pd) isotopes in order to preserve appreciable signal-to-noise ratios and achieve higher yields after sample deconvolution. The number of samples that can be pooled in an experiment using live-cell barcoding is limited, due to weak signal intensities associated with Pd isotopes and the relatively low number of available tags. Here, we describe a novel barcoding technique utilizing 10 different tags, seven cadmium (Cd) tags and three Pd tags, with superior signal intensities that do not impinge on lanthanide detection, which enables enhanced pooling of samples with multiple experimental conditions and markedly enhances sample throughput.