eLife (Apr 2021)

Methionine restriction breaks obligatory coupling of cell proliferation and death by an oncogene Src in Drosophila

  • Hiroshi Nishida,
  • Morihiro Okada,
  • Lynna Yang,
  • Tomomi Takano,
  • Sho Tabata,
  • Tomoyoshi Soga,
  • Diana M Ho,
  • Jongkyeong Chung,
  • Yasuhiro Minami,
  • Sa Kan Yoo

DOI
https://doi.org/10.7554/eLife.59809
Journal volume & issue
Vol. 10

Abstract

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Oncogenes often promote cell death as well as proliferation. How oncogenes drive these diametrically opposed phenomena remains to be solved. A key question is whether cell death occurs as a response to aberrant proliferation signals or through a proliferation-independent mechanism. Here, we reveal that Src, the first identified oncogene, simultaneously drives cell proliferation and death in an obligatorily coupled manner through parallel MAPK pathways. The two MAPK pathways diverge from a lynchpin protein Slpr. A MAPK p38 drives proliferation whereas another MAPK JNK drives apoptosis independently of proliferation signals. Src-p38-induced proliferation is regulated by methionine-mediated Tor signaling. Reduction of dietary methionine uncouples the obligatory coupling of cell proliferation and death, suppressing tumorigenesis and tumor-induced lethality. Our findings provide an insight into how cells evolved to have a fail-safe mechanism that thwarts tumorigenesis by the oncogene Src. We also exemplify a diet-based approach to circumvent oncogenesis by exploiting the fail-safe mechanism.

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