Glutathione Biosynthesis is Upregulated at the Initiation of MYCN-driven Neuroblastoma Tumorigenesis

Overview

Journal Mol Oncol

Specialties Molecular Biology
Oncology

Date 2016 Mar 22

PMID 26996379

Citations 19

Authors

Daniel R Carter

Selina K Sutton

Marina Pajic

Jayne Murray

Eric O Sekyere

Jamie Fletcher

Anneleen Beckers

Katleen De Preter

Frank Speleman

Rani E George

Michelle Haber

Murray D Norris

Belamy B Cheung

Glenn M Marshall

Affiliations

Soon will be listed here.

Abstract

The MYCN gene is amplified and overexpressed in a large proportion of high stage neuroblastoma patients and has been identified as a key driver of tumorigenesis. However, the mechanism by which MYCN promotes tumor initiation is poorly understood. Here we conducted metabolic profiling of pre-malignant sympathetic ganglia and tumors derived from the TH-MYCN mouse model of neuroblastoma, compared to non-malignant ganglia from wildtype littermates. We found that metabolites involved in the biosynthesis of glutathione, the most abundant cellular antioxidant, were the most significantly upregulated metabolic pathway at tumor initiation, and progressively increased to meet the demands of tumorigenesis. A corresponding increase in the expression of genes involved in ribosomal biogenesis suggested that MYCN-driven transactivation of the protein biosynthetic machinery generated the necessary substrates to drive glutathione biosynthesis. Pre-malignant sympathetic ganglia from TH-MYCN mice had higher antioxidant capacity and required glutathione upregulation for cell survival, when compared to wildtype ganglia. Moreover, in vivo administration of inhibitors of glutathione biosynthesis significantly delayed tumorigenesis when administered prophylactically and potentiated the anticancer activity of cytotoxic chemotherapy against established tumors. Together these results identify enhanced glutathione biosynthesis as a selective metabolic adaptation required for initiation of MYCN-driven neuroblastoma, and suggest that glutathione-targeted agents may be used as a potential preventative strategy, or as an adjuvant to existing chemotherapies in established disease.

Citing Articles

Mitotic Dysregulation at Tumor Initiation Creates a Therapeutic Vulnerability to Combination Anti-Mitotic and Pro-Apoptotic Agents for MYCN-Driven Neuroblastoma.

Zhai L, Balachandran A, Larkin R, Seneviratne J, Chung S, Lalwani A Int J Mol Sci. 2023; 24(21).

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DHODH is an independent prognostic marker and potent therapeutic target in neuroblastoma.

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Targeting lipid metabolism in cancer: neuroblastoma.

Agostini M, Melino G, Habeb B, Calandria J, Bazan N Cancer Metastasis Rev. 2022; 41(2):255-260.

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MEIS2 Is an Adrenergic Core Regulatory Transcription Factor Involved in Early Initiation of TH-MYCN-Driven Neuroblastoma Formation.

De Wyn J, Zimmerman M, Weichert-Leahey N, Nunes C, Cheung B, Abraham B Cancers (Basel). 2021; 13(19).

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Inhibition of fatty acid synthesis induces differentiation and reduces tumor burden in childhood neuroblastoma.

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