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Inhibiting phosphoglycerate dehydrogenase counteracts chemotherapeutic efficacy against<scp><i>MYCN</i></scp>‐amplified neuroblastoma

Birte Arlt, Christin Zasada, Katharina Baum, Jasmin Wuenschel, Guido Mastrobuoni, Marco Lodrini, Kathy Astrahantseff, Annika Winkler, Johannes H. Schulte, Sabine Finkler, Martin Forbes, Patrick Hundsdoerfer, Dennis Guergen, Jens Hoffmann, Jana Wolf, Angelika Eggert, Stefan Kempa, Hedwig E. Deubzer

2020International Journal of Cancer26 citationsDOIOpen Access PDF

Abstract

Abstract Here we sought metabolic alterations specifically associated with MYCN amplification as nodes to indirectly target the MYCN oncogene. Liquid chromatography‐mass spectrometry‐based proteomics identified seven proteins consistently correlated with MYCN in proteomes from 49 neuroblastoma biopsies and 13 cell lines. Among these was phosphoglycerate dehydrogenase (PHGDH), the rate‐limiting enzyme in de novo serine synthesis. MYCN associated with two regions in the PHGDH promoter, supporting transcriptional PHGDH regulation by MYCN. Pulsed stable isotope‐resolved metabolomics utilizing 13 C‐glucose labeling demonstrated higher de novo serine synthesis in MYCN ‐amplified cells compared to cells with diploid MYCN . An independence of MYCN ‐amplified cells from exogenous serine and glycine was demonstrated by serine and glycine starvation, which attenuated nucleotide pools and proliferation only in cells with diploid MYCN but did not diminish these endpoints in MYCN ‐amplified cells. Proliferation was attenuated in MYCN ‐amplified cells by CRISPR/Cas9‐mediated PHGDH knockout or treatment with PHGDH small molecule inhibitors without affecting cell viability. PHGDH inhibitors administered as single‐agent therapy to NOG mice harboring patient‐derived MYCN ‐amplified neuroblastoma xenografts slowed tumor growth. However, combining a PHGDH inhibitor with the standard‐of‐care chemotherapy drug, cisplatin, revealed antagonism of chemotherapy efficacy in vivo. Emergence of chemotherapy resistance was confirmed in the genetic PHGDH knockout model in vitro. Altogether, PHGDH knockout or inhibition by small molecules consistently slows proliferation, but stops short of killing the cells, which then establish resistance to classical chemotherapy. Although PHGDH inhibition with small molecules has produced encouraging results in other preclinical cancer models, this approach has limited attractiveness for patients with neuroblastoma.

Topics & Concepts

NeuroblastomaCancer researchBiologySerineIn vivoOncogeneApoptosisMolecular biologyCell cultureCell cycleEnzymeBiochemistryGeneticsNeuroblastoma Research and TreatmentsCancer, Hypoxia, and MetabolismCancer therapeutics and mechanisms
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