LKB1 inactivation modulates chromatin accessibility to drive metastatic progression

Sarah E. Pierce, Jeffrey M. Granja, M. Ryan Corces, Jennifer J. Brady, Min K. Tsai, Aubrey B. Pierce, Rui Tang, Pauline Chu, David M. Feldser, Howard Y. Chang, Michael C. Bassik, William J. Greenleaf, Monte M. Winslow

Research output: Contribution to journalArticlepeer-review

30 Scopus citations

Abstract

Metastasis is the leading cause of cancer-related deaths and enables cancer cells to compromise organ function by expanding in secondary sites. Since primary tumours and metastases often share the same constellation of driver mutations, the mechanisms that drive their distinct phenotypes are unclear. Here we show that inactivation of the frequently mutated tumour suppressor gene LKB1 (encoding liver kinase B1) has evolving effects throughout the progression of lung cancer, which leads to the differential epigenetic re-programming of early-stage primary tumours compared with late-stage metastases. By integrating genome-scale CRISPR–Cas9 screening with bulk and single-cell multi-omic analyses, we unexpectedly identify LKB1 as a master regulator of chromatin accessibility in lung adenocarcinoma primary tumours. Using an in vivo model of metastatic progression, we further show that loss of LKB1 activates the early endoderm transcription factor SOX17 in metastases and a metastatic-like sub-population of cancer cells within primary tumours. The expression of SOX17 is necessary and sufficient to drive a second wave of epigenetic changes in LKB1-deficient cells that enhances metastatic ability. Overall, our study demonstrates how the downstream effects of an individual driver mutation can change throughout cancer development, with implications for stage-specific therapeutic resistance mechanisms and the gene regulatory underpinnings of metastatic evolution.

Original languageEnglish
Pages (from-to)915-924
Number of pages10
JournalNature Cell Biology
Volume23
Issue number8
DOIs
StatePublished - Aug 2021

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