De novo and salvage purine synthesis pathways across tissues and tumors

Diem H. Tran, Dohun Kim, Rushendhiran Kesavan, Harrison Brown, Trishna Dey, Mona Hoseini Soflaee, Hieu S. Vu, Alpaslan Tasdogan, Jason Guo, Divya Bezwada, Houssam Al Saad, Feng Cai, Ashley Solmonson, Halie Rion, Rawand Chabatya, Salma Merchant, Nathan J. Manales, Vanina T. Tcheuyap, Megan Mulkey, Thomas P. MathewsJames Brugarolas, Sean J. Morrison, Hao Zhu, Ralph J. DeBerardinis, Gerta Hoxhaj

Research output: Contribution to journalArticlepeer-review

3 Scopus citations

Abstract

Purine nucleotides are vital for RNA and DNA synthesis, signaling, metabolism, and energy homeostasis. To synthesize purines, cells use two principal routes: the de novo and salvage pathways. Traditionally, it is believed that proliferating cells predominantly rely on de novo synthesis, whereas differentiated tissues favor the salvage pathway. Unexpectedly, we find that adenine and inosine are the most effective circulating precursors for supplying purine nucleotides to tissues and tumors, while hypoxanthine is rapidly catabolized and poorly salvaged in vivo. Quantitative metabolic analysis demonstrates comparative contribution from de novo synthesis and salvage pathways in maintaining purine nucleotide pools in tumors. Notably, feeding mice nucleotides accelerates tumor growth, while inhibiting purine salvage slows down tumor progression, revealing a crucial role of the salvage pathway in tumor metabolism. These findings provide fundamental insights into how normal tissues and tumors maintain purine nucleotides and highlight the significance of purine salvage in cancer.

Original languageEnglish (US)
Pages (from-to)3602-3618.e20
JournalCell
Volume187
Issue number14
DOIs
StatePublished - Jul 11 2024

Keywords

  • cancer metabolism
  • de novo purine synthesis
  • in vivo isotope tracing
  • nucleotide diet
  • nucleotide metabolism
  • purine bases
  • purine degradation
  • purine salvage
  • tissue
  • tumor growth

ASJC Scopus subject areas

  • General Biochemistry, Genetics and Molecular Biology

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