Unravelling Intratumoral Heterogeneity through High-Sensitivity Single-Cell Mutational Analysis and Parallel RNA Sequencing

Alba Rodríguez-Meira; Gemma Buck; Sally‐Ann Clark; Benjamin Povinelli; Verónica Alcolea; Eleni Louka; Simon J. McGowan; Angela Hamblin; Nikolaos Sousos; Nikolaos Barkas; Alice Giustacchini; Bethan Psaila; Sten Eirik W. Jacobsen; Supat Thongjuea; Adam J. Mead

doi:10.1016/j.molcel.2019.01.009

Unravelling Intratumoral Heterogeneity through High-Sensitivity Single-Cell Mutational Analysis and Parallel RNA Sequencing

Alba Rodríguez-Meira(University of Oxford), Gemma Buck(University of Oxford), Sally‐Ann Clark(University of Oxford), Benjamin Povinelli(University of Oxford), Verónica Alcolea(University of Oxford), Eleni Louka(University of Oxford), Simon J. McGowan(University of Oxford), Angela Hamblin(National Institute for Health and Care Research), Nikolaos Sousos(University of Oxford), Nikolaos Barkas(University of Oxford), Alice Giustacchini(University of Oxford), Bethan Psaila(National Institute for Health and Care Research), Sten Eirik W. Jacobsen(Karolinska University Hospital), Supat Thongjuea(University of Oxford), Adam J. Mead(National Institute for Health and Care Research)

Molecular Cell

February 11, 2019

10.1016/j.molcel.2019.01.009

Cited by 311Open Access

Full Text

Abstract

Single-cell RNA sequencing (scRNA-seq) has emerged as a powerful tool for resolving transcriptional heterogeneity. However, its application to studying cancerous tissues is currently hampered by the lack of coverage across key mutation hotspots in the vast majority of cells; this lack of coverage prevents the correlation of genetic and transcriptional readouts from the same single cell. To overcome this, we developed TARGET-seq, a method for the high-sensitivity detection of multiple mutations within single cells from both genomic and coding DNA, in parallel with unbiased whole-transcriptome analysis. Applying TARGET-seq to 4,559 single cells, we demonstrate how this technique uniquely resolves transcriptional and genetic tumor heterogeneity in myeloproliferative neoplasms (MPN) stem and progenitor cells, providing insights into deregulated pathways of mutant and non-mutant cells. TARGET-seq is a powerful tool for resolving the molecular signatures of genetically distinct subclones of cancer cells.

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