Multiplexed screens identify RAS paralogues HRAS and NRAS as suppressors of KRAS-driven lung cancer growth

Rui Tang, Emily G. Shuldiner, Marcus Kelly, Christopher W. Murray, Jess D. Hebert, Laura Andrejka, Min K. Tsai, Nicholas W. Hughes, Mitchell I. Parker, Hongchen Cai, Yao Cheng Li, Geoffrey M. Wahl, Roland L. Dunbrack, Peter K. Jackson, Dmitri A. Petrov, Monte M. Winslow

Research output: Contribution to journalArticlepeer-review

8 Scopus citations

Abstract

Oncogenic KRAS mutations occur in approximately 30% of lung adenocarcinoma. Despite several decades of effort, oncogenic KRAS-driven lung cancer remains difficult to treat, and our understanding of the regulators of RAS signalling is incomplete. Here to uncover the impact of diverse KRAS-interacting proteins on lung cancer growth, we combined multiplexed somatic CRISPR/Cas9-based genome editing in genetically engineered mouse models with tumour barcoding and high-throughput barcode sequencing. Through a series of CRISPR/Cas9 screens in autochthonous lung cancer models, we show that HRAS and NRAS are suppressors of KRASG12D-driven tumour growth in vivo and confirm these effects in oncogenic KRAS-driven human lung cancer cell lines. Mechanistically, RAS paralogues interact with oncogenic KRAS, suppress KRAS–KRAS interactions, and reduce downstream ERK signalling. Furthermore, HRAS and NRAS mutations identified in oncogenic KRAS-driven human tumours partially abolished this effect. By comparing the tumour-suppressive effects of HRAS and NRAS in oncogenic KRAS- and oncogenic BRAF-driven lung cancer models, we confirm that RAS paralogues are specific suppressors of KRAS-driven lung cancer in vivo. Our study outlines a technological avenue to uncover positive and negative regulators of oncogenic KRAS-driven cancer in a multiplexed manner in vivo and highlights the role RAS paralogue imbalance in oncogenic KRAS-driven lung cancer.

Original languageEnglish
Pages (from-to)159-169
Number of pages11
JournalNature Cell Biology
Volume25
Issue number1
DOIs
StatePublished - Jan 2023

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