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Multifunctional barcoding with ClonMapper enables high-resolution study of clonal dynamics during tumor evolution and treatment

Authors :
Aziz Al'Khafaji
Donna Neuberg
Eric Brenner
Catherine Gutierrez
Gad Getz
Ziao Lin
Wandi Zhang
Binyamin A. Knisbacher
Satyen H. Gohil
Laura Z. Rassenti
Thomas J. Kipps
Shuqiang Li
Kaitlyn E. Johnson
Russell E. Durrett
Amy Brock
Kenneth J. Livak
Catherine J. Wu
Anthony Letai
Anat Biran
Salma Parvin
Source :
Nature cancer, vol 2, iss 7, Nat Cancer
Publication Year :
2021
Publisher :
eScholarship, University of California, 2021.

Abstract

Lineage-tracing methods have enabled characterization of clonal dynamics in complex populations, but generally lack the ability to integrate genomic, epigenomic and transcriptomic measurements with live-cell manipulation of specific clones of interest. We developed a functionalized lineage-tracing system, ClonMapper, which integrates DNA barcoding with single-cell RNA sequencing and clonal isolation to comprehensively characterize thousands of clones within heterogeneous populations. Using ClonMapper, we identified subpopulations of a chronic lymphocytic leukemia cell line with distinct clonal compositions, transcriptional signatures and chemotherapy survivorship trajectories; patterns that were also observed in primary human chronic lymphocytic leukemia. The ability to retrieve specific clones before, during and after treatment enabled direct measurements of clonal diversification and durable subpopulation transcriptional signatures. ClonMapper is a powerful multifunctional approach to dissect the complex clonal dynamics of tumor progression and therapeutic response. Wu and colleagues develop a barcoding tool, ClonMapper, which permits single-cell lineage tracing and clonal isolation and demonstrate its utility to study clonal dynamics in human CLL cells in the context of chemotherapy treatment and resistance.

Details

Database :
OpenAIRE
Journal :
Nature cancer, vol 2, iss 7, Nat Cancer
Accession number :
edsair.doi.dedup.....310cbb3972a01205c78a669a45933578