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, Matthew G Jones, Ross A Okimoto, Shigeki Nanjo, Michelle M Chan, Nir Yosef, Trever G Bivona, Jonathan S Weissman

Research output: Contribution to journal › Article › peer-review

Abstract

Detailed phylogenies of tumor populations can recount the history and chronology of critical events during cancer progression, such as metastatic dissemination. We applied a Cas9-based, single-cell lineage tracer to study the rates, routes, and drivers of metastasis in a lung cancer xenograft mouse model. We report deeply resolved phylogenies for tens of thousands of cancer cells traced over months of growth and dissemination. This revealed stark heterogeneity in metastatic capacity, arising from preexisting and heritable differences in gene expression. We demonstrate that these identified genes can drive invasiveness and uncovered an unanticipated suppressive role for KRT17. We also show that metastases disseminated via multidirectional tissue routes and complex seeding topologies. Overall, we demonstrate the power of tracing cancer progression at subclonal resolution and vast scale.

Original language	English
Article number	abc1944
Journal	Science
Volume	371
Issue number	6532
Early online date	21 Jan 2021
DOIs	https://doi.org/10.1126/science.abc1944
State	Published - 26 Feb 2021
Externally published	Yes

All Science Journal Classification (ASJC) codes

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

abstract = "Detailed phylogenies of tumor populations can recount the history and chronology of critical events during cancer progression, such as metastatic dissemination. We applied a Cas9-based, single-cell lineage tracer to study the rates, routes, and drivers of metastasis in a lung cancer xenograft mouse model. We report deeply resolved phylogenies for tens of thousands of cancer cells traced over months of growth and dissemination. This revealed stark heterogeneity in metastatic capacity, arising from preexisting and heritable differences in gene expression. We demonstrate that these identified genes can drive invasiveness and uncovered an unanticipated suppressive role for KRT17. We also show that metastases disseminated via multidirectional tissue routes and complex seeding topologies. Overall, we demonstrate the power of tracing cancer progression at subclonal resolution and vast scale.",

author = "Quinn, \{Jeffrey J\} and Jones, \{Matthew G\} and Okimoto, \{Ross A\} and Shigeki Nanjo and Chan, \{Michelle M\} and Nir Yosef and Bivona, \{Trever G\} and Weissman, \{Jonathan S\}",

year = "2021",

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doi = "10.1126/science.abc1944",

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TY - JOUR

T1 - Single-cell lineages reveal the rates, routes, and drivers of metastasis in cancer xenografts

AU - Quinn, Jeffrey J

AU - Jones, Matthew G

AU - Okimoto, Ross A

AU - Nanjo, Shigeki

AU - Chan, Michelle M

AU - Yosef, Nir

AU - Bivona, Trever G

AU - Weissman, Jonathan S

PY - 2021/2/26

Y1 - 2021/2/26

N2 - Detailed phylogenies of tumor populations can recount the history and chronology of critical events during cancer progression, such as metastatic dissemination. We applied a Cas9-based, single-cell lineage tracer to study the rates, routes, and drivers of metastasis in a lung cancer xenograft mouse model. We report deeply resolved phylogenies for tens of thousands of cancer cells traced over months of growth and dissemination. This revealed stark heterogeneity in metastatic capacity, arising from preexisting and heritable differences in gene expression. We demonstrate that these identified genes can drive invasiveness and uncovered an unanticipated suppressive role for KRT17. We also show that metastases disseminated via multidirectional tissue routes and complex seeding topologies. Overall, we demonstrate the power of tracing cancer progression at subclonal resolution and vast scale.

AB - Detailed phylogenies of tumor populations can recount the history and chronology of critical events during cancer progression, such as metastatic dissemination. We applied a Cas9-based, single-cell lineage tracer to study the rates, routes, and drivers of metastasis in a lung cancer xenograft mouse model. We report deeply resolved phylogenies for tens of thousands of cancer cells traced over months of growth and dissemination. This revealed stark heterogeneity in metastatic capacity, arising from preexisting and heritable differences in gene expression. We demonstrate that these identified genes can drive invasiveness and uncovered an unanticipated suppressive role for KRT17. We also show that metastases disseminated via multidirectional tissue routes and complex seeding topologies. Overall, we demonstrate the power of tracing cancer progression at subclonal resolution and vast scale.

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U2 - 10.1126/science.abc1944

DO - 10.1126/science.abc1944

M3 - مقالة

C2 - 33479121

SN - 0036-8075

VL - 371

JO - Science

JF - Science

IS - 6532

M1 - abc1944

ER -

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

Abstract

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