SHMT2-mediated Mitochondrial Serine Metabolism Drives 5-FU Resistance by Fueling Nucleotide Biosynthesis

Overview

Journal Cell Rep

Publisher Cell Press

Specialties Biology
Cell Biology
Molecular Biology

Date 2022 Aug 17

PMID 35977477

Authors

Erica Pranzini

Elisa Pardella

Livio Muccillo

Angela Leo

Ilaria Nesi

Alice Santi

Matteo Parri

Tong Zhang

Alejandro Huerta Uribe

Tiziano Lottini

Lina Sabatino

Anna Caselli

Annarosa Arcangeli

Giovanni Raugei

Vittorio Colantuoni

Paolo Cirri

Paola Chiarugi

Oliver D K Maddocks

Paolo Paoli

Maria Letizia Taddei

Affiliations

Soon will be listed here.

Abstract

5-Fluorouracil (5-FU) is a key component of chemotherapy for colorectal cancer (CRC). 5-FU efficacy is established by intracellular levels of folate cofactors and DNA damage repair strategies. However, drug resistance still represents a major challenge. Here, we report that alterations in serine metabolism affect 5-FU sensitivity in in vitro and in vivo CRC models. In particular, 5-FU-resistant CRC cells display a strong serine dependency achieved either by upregulating endogenous serine synthesis or increasing exogenous serine uptake. Importantly, regardless of the serine feeder strategy, serine hydroxymethyltransferase-2 (SHMT2)-driven compartmentalization of one-carbon metabolism inside the mitochondria represents a specific adaptation of resistant cells to support purine biosynthesis and potentiate DNA damage response. Interfering with serine availability or affecting its mitochondrial metabolism revert 5-FU resistance. These data disclose a relevant mechanism of mitochondrial serine use supporting 5-FU resistance in CRC and provide perspectives for therapeutic approaches.

Citing Articles

Mitochondria-associated non-coding RNAs and their impact on drug resistance.

An X, Sun L, Zheng H, Xiao Y, Sun W, Yu D Front Pharmacol. 2025; 16:1472804.

PMID: 40078288 PMC: 11897306. DOI: 10.3389/fphar.2025.1472804.

Salidroside enhances 5-fluorouracil sensitivity against hepatocellular carcinoma via YIPF5-induced mitophagy.

Sun S, Hu H, Li F, Huan S, Chen L, Chen J Front Pharmacol. 2025; 15():1503490.

PMID: 39834805 PMC: 11743563. DOI: 10.3389/fphar.2024.1503490.

FOXC1-mediated serine metabolism reprogramming enhances colorectal cancer growth and 5-FU resistance under serine restriction.

Chen Z, Xu J, Fang K, Jiang H, Leng Z, Wu H Cell Commun Signal. 2025; 23(1):13.

PMID: 39773485 PMC: 11708197. DOI: 10.1186/s12964-024-02016-8.

Mitochondria: a crucial factor in the progression and drug resistance of colorectal cancer.

Zhao Y, Guo X, Zhang L, Wang D, Li Y Front Immunol. 2025; 15:1512469.

PMID: 39763669 PMC: 11701040. DOI: 10.3389/fimmu.2024.1512469.

Limiting serine availability during tumor progression promotes muscle wasting in cancer cachexia.

Pranzini E, Muccillo L, Nesi I, Santi A, Mancini C, Lori G Cell Death Discov. 2024; 10(1):510.

PMID: 39706853 PMC: 11662032. DOI: 10.1038/s41420-024-02271-1.