Molecular Metabolism (Mar 2024)

Loss of mitochondrial pyruvate carrier 1 supports proline-dependent proliferation and collagen biosynthesis in ovarian cancer

  • M. Rufaik Farook,
  • Zack Croxford,
  • Steffan Morgan,
  • Anthony D. Horlock,
  • Amy K. Holt,
  • April Rees,
  • Benjamin J. Jenkins,
  • Carmen Tse,
  • Emma Stanton,
  • D. Mark Davies,
  • Catherine A. Thornton,
  • Nicholas Jones,
  • I. Martin Sheldon,
  • Emma E. Vincent,
  • James G. Cronin

Journal volume & issue
Vol. 81
p. 101900

Abstract

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The pyruvate transporter MPC1 (mitochondrial pyruvate carrier 1) acts as a tumour-suppressor, loss of which correlates with a pro-tumorigenic phenotype and poor survival in several tumour types. In high-grade serous ovarian cancers (HGSOC), patients display copy number loss of MPC1 in around 78% of cases and reduced MPC1 mRNA expression. To explore the metabolic effect of reduced expression, we demonstrate that depleting MPC1 in HGSOC cell lines drives expression of key proline biosynthetic genes; PYCR1, PYCR2 and PYCR3, and biosynthesis of proline. We show that altered proline metabolism underpins cancer cell proliferation, reactive oxygen species (ROS) production, and type I and type VI collagen formation in ovarian cancer cells. Furthermore, exploring The Cancer Genome Atlas, we discovered the PYCR3 isozyme to be highly expressed in a third of HGSOC patients, which was associated with more aggressive disease and diagnosis at a younger age. Taken together, our study highlights that targeting proline metabolism is a potential therapeutic avenue for the treatment of HGSOC.

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