Cell Reports (Feb 2022)

CRAF dimerization with ARAF regulates KRAS-driven tumor growth

  • Avinashnarayan Venkatanarayan,
  • Jason Liang,
  • Ivana Yen,
  • Frances Shanahan,
  • Benjamin Haley,
  • Lilian Phu,
  • Erik Verschueren,
  • Trent B. Hinkle,
  • David Kan,
  • Ehud Segal,
  • Jason E. Long,
  • Tony Lima,
  • Nicholas P.D. Liau,
  • Jawahar Sudhamsu,
  • Jason Li,
  • Christiaan Klijn,
  • Robert Piskol,
  • Melissa R. Junttila,
  • Andrey S. Shaw,
  • Mark Merchant,
  • Matthew T. Chang,
  • Donald S. Kirkpatrick,
  • Shiva Malek

Journal volume & issue
Vol. 38, no. 6
p. 110351

Abstract

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Summary: KRAS, which is mutated in ∼30% of all cancers, activates the RAF-MEK-ERK signaling cascade. CRAF is required for growth of KRAS mutant lung tumors, but the requirement for CRAF kinase activity is unknown. Here, we show that subsets of KRAS mutant tumors are dependent on CRAF for growth. Kinase-dead but not dimer-defective CRAF rescues growth inhibition, suggesting that dimerization but not kinase activity is required. Quantitative proteomics demonstrates increased levels of CRAF:ARAF dimers in KRAS mutant cells, and depletion of both CRAF and ARAF rescues the CRAF-loss phenotype. Mechanistically, CRAF depletion causes sustained ERK activation and induction of cell-cycle arrest, while treatment with low-dose MEK or ERK inhibitor rescues the CRAF-loss phenotype. Our studies highlight the role of CRAF in regulating MAPK signal intensity to promote tumorigenesis downstream of mutant KRAS and suggest that disrupting CRAF dimerization or degrading CRAF may have therapeutic benefit.

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