Nucleotide Biosynthesis Links Glutathione Metabolism to Ferroptosis Sensitivity

Overview

Journal Life Sci Alliance

Specialties Biochemistry
Biology
Cell Biology
Molecular Biology

Date 2022 Jan 25

PMID 35074928

Authors

Amy Tarangelo

Jason Rodencal

Joon Tae Kim

Leslie Magtanong

Jonathan Z Long

Scott J Dixon

Affiliations

Soon will be listed here.

Abstract

Nucleotide synthesis is a metabolically demanding process essential for DNA replication and other processes in the cell. Several anticancer drugs that inhibit nucleotide metabolism induce apoptosis. How inhibition of nucleotide metabolism impacts non-apoptotic cell death is less clear. Here, we report that inhibition of nucleotide metabolism by the p53 pathway is sufficient to suppress the non-apoptotic cell death process of ferroptosis. Mechanistically, stabilization of wild-type p53 and induction of the p53 target gene (p21) leads to decreased expression of the ribonucleotide reductase (RNR) subunits and RNR is the rate-limiting enzyme of de novo nucleotide synthesis that reduces ribonucleotides to deoxyribonucleotides in a glutathione-dependent manner. Direct inhibition of RNR results in conservation of intracellular glutathione, limiting the accumulation of toxic lipid peroxides and preventing the onset of ferroptosis in response to cystine deprivation. These results support a mechanism linking p53-dependent regulation of nucleotide metabolism to non-apoptotic cell death.

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