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. 2022 Mar;603(7900):335-342.
doi: 10.1038/s41586-022-04451-4. Epub 2022 Mar 2.

Silent mutations reveal therapeutic vulnerability in RAS Q61 cancers

Yoshihisa Kobayashi  1   2   3 Chhayheng Chhoeu  4 Jiaqi Li  5 Kristin S Price  6 Lesli A Kiedrowski  6 Jamie L Hutchins  6 Aaron I Hardin  6 Zihan Wei  7 Fangxin Hong  7   8 Magda Bahcall  5   9 Prafulla C Gokhale  4   10 Pasi A Jänne  11   12   13   14
Affiliations

Silent mutations reveal therapeutic vulnerability in RAS Q61 cancers

Yoshihisa Kobayashi et al. Nature. 2022 Mar.

Abstract

RAS family members are the most frequently mutated oncogenes in human cancers. Although KRAS(G12C)-specific inhibitors show clinical activity in patients with cancer1-3, there are no direct inhibitors of NRAS, HRAS or non-G12C KRAS variants. Here we uncover the requirement of the silent KRASG60G mutation for cells to produce a functional KRAS(Q61K). In the absence of this G60G mutation in KRASQ61K, a cryptic splice donor site is formed, promoting alternative splicing and premature protein termination. A G60G silent mutation eliminates the splice donor site, yielding a functional KRAS(Q61K) variant. We detected a concordance of KRASQ61K and a G60G/A59A silent mutation in three independent pan-cancer cohorts. The region around RAS Q61 is enriched in exonic splicing enhancer (ESE) motifs and we designed mutant-specific oligonucleotides to interfere with ESE-mediated splicing, rendering the RAS(Q61) protein non-functional in a mutant-selective manner. The induction of aberrant splicing by antisense oligonucleotides demonstrated therapeutic effects in vitro and in vivo. By studying the splicing necessary for a functional KRAS(Q61K), we uncover a mutant-selective treatment strategy for RASQ61 cancer and expose a mutant-specific vulnerability, which could potentially be exploited for therapy in other genetic contexts.

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Comment in

  • Silent mutations make noise.
    Seton-Rogers S. Seton-Rogers S. Nat Rev Cancer. 2022 May;22(5):257. doi: 10.1038/s41568-022-00469-y. Nat Rev Cancer. 2022. PMID: 35302114 No abstract available.

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