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Combi-seq for multiplexed transcriptome-based profiling of drug combinations using deterministic barcoding in single-cell droplets.

L MathurBence SzalaiN H DuR UtharalaM BallingerJ J M LandryMichaël RyckelynckVladimir BenesJulio Saez-RodriguezChristoph A Merten
Published in: Nature communications (2022)
Anti-cancer therapies often exhibit only short-term effects. Tumors typically develop drug resistance causing relapses that might be tackled with drug combinations. Identification of the right combination is challenging and would benefit from high-content, high-throughput combinatorial screens directly on patient biopsies. However, such screens require a large amount of material, normally not available from patients. To address these challenges, we present a scalable microfluidic workflow, called Combi-Seq, to screen hundreds of drug combinations in picoliter-size droplets using transcriptome changes as a readout for drug effects. We devise a deterministic combinatorial DNA barcoding approach to encode treatment conditions, enabling the gene expression-based readout of drug effects in a highly multiplexed fashion. We apply Combi-Seq to screen the effect of 420 drug combinations on the transcriptome of K562 cells using only ~250 single cell droplets per condition, to successfully predict synergistic and antagonistic drug pairs, as well as their pathway activities.
Keyphrases
  • single cell
  • high throughput
  • rna seq
  • gene expression
  • genome wide
  • adverse drug
  • emergency department
  • dna methylation
  • drug induced
  • newly diagnosed
  • case report
  • cell proliferation
  • prognostic factors
  • signaling pathway