ASS1 Metabolically Contributes to the Nuclear and Cytosolic P53-mediated DNA Damage Response

Overview

Journal Nat Metab

Publisher Springer Nature

Specialty Endocrinology

Date 2024 Jun 10

PMID 38858597

Authors

Lisha Qiu Jin Lim

Lital Adler

Emma Hajaj

Leandro R Soria

Rotem Ben-Tov Perry

Naama Darzi

Ruchama Brody

Noa Furth

Michal Lichtenstein

Elizabeta Bab-Dinitz

Ziv Porat

Tevie Melman

Alexander Brandis

Sergey Malitsky

Maxim Itkin

Yael Aylon

Shifra Ben-Dor

Irit Orr

Amir Pri-Or

Rony Seger

Yoav Shaul

Eytan Ruppin

Moshe Oren

Minervo Perez

Jordan Meier

Nicola Brunetti-Pierri

Efrat Shema

Igor Ulitsky

Ayelet Erez

Affiliations

Soon will be listed here.

Abstract

Downregulation of the urea cycle enzyme argininosuccinate synthase (ASS1) in multiple tumors is associated with a poor prognosis partly because of the metabolic diversion of cytosolic aspartate for pyrimidine synthesis, supporting proliferation and mutagenesis owing to nucleotide imbalance. Here, we find that prolonged loss of ASS1 promotes DNA damage in colon cancer cells and fibroblasts from subjects with citrullinemia type I. Following acute induction of DNA damage with doxorubicin, ASS1 expression is elevated in the cytosol and the nucleus with at least a partial dependency on p53; ASS1 metabolically restrains cell cycle progression in the cytosol by restricting nucleotide synthesis. In the nucleus, ASS1 and ASL generate fumarate for the succination of SMARCC1, destabilizing the chromatin-remodeling complex SMARCC1-SNF5 to decrease gene transcription, specifically in a subset of the p53-regulated cell cycle genes. Thus, following DNA damage, ASS1 is part of the p53 network that pauses cell cycle progression, enabling genome maintenance and survival. Loss of ASS1 contributes to DNA damage and promotes cell cycle progression, likely contributing to cancer mutagenesis and, hence, adaptability potential.

Citing Articles

Arginine: at the crossroads of nitrogen metabolism.

Fung T, Ryu K, Thompson C EMBO J. 2025; 44(5):1275-1293.

PMID: 39920310 PMC: 11876448. DOI: 10.1038/s44318-025-00379-3.

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