Single-cell lineages reveal the rates, routes, and drivers of metastasis in cancer xenografts

Jeffrey J. Quinn; Matthew G. Jones; Ross A. Okimoto; Shigeki Nanjo; Michelle M. Chan; Nir Yosef; Trever G. Bivona; Jonathan S. Weissman

doi:10.1126/science.abc1944

Single-cell lineages reveal the rates, routes, and drivers of metastasis in cancer xenografts

Jeffrey J. Quinn(Howard Hughes Medical Institute), Matthew G. Jones(QB3), Ross A. Okimoto(University of California, San Francisco), Shigeki Nanjo(University of California, San Francisco), Michelle M. Chan(Howard Hughes Medical Institute), Nir Yosef(Ragon Institute of MGH, MIT and Harvard), Trever G. Bivona(University of California, San Francisco), Jonathan S. Weissman(Howard Hughes Medical Institute)

Science

January 21, 2021

10.1126/science.abc1944

Cited by 313Open Access

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Abstract

Following cancer through the body The heterogeneity of mammalian tumors has been well documented, but it remains unknown how differences between individual cells lead to metastasis and spread throughout the body. Quinn et al. created a Cas9-based lineage tracer and used single-cell sequencing to generate phylogenies and follow the movement of metastatic human cancer cells implanted in the lung of a mouse xenograph model. Using this model, they found that within the same cell line, cancer cells exhibited diverse metastatic phenotypes. These subclones exhibited differential gene expression profiles, some of which were previously associated with metastasis. Science , this issue p. eabc1944

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