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Supplementary Figure S1 A-E from Drugging MYCN Oncogenic Signaling through the MYCN-PA2G4 Binding Interface

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posted on 2023-03-31, 03:45 authored by Jessica Koach, Jessica K. Holien, Hassina Massudi, Daniel R. Carter, Olivia C. Ciampa, Mika Herath, Taylor Lim, Janith A. Seneviratne, Giorgio Milazzo, Jayne E. Murray, Joshua A. McCarroll, Bing Liu, Chelsea Mayoh, Bryce Keenan, Brendan W. Stevenson, Michael A. Gorman, Jessica L. Bell, Larissa Doughty, Stefan Hüttelmaier, Andre Oberthuer, Matthias Fischer, Andrew J. Gifford, Tao Liu, Xiaoling Zhang, Shizhen Zhu, W. Clay Gustafson, Michelle Haber, Murray D. Norris, Jamie I. Fletcher, Giovanni Perini, Michael W. Parker, Belamy B. Cheung, Glenn M. Marshall

Supplementary Figure S1. PA2G4 is a MYCN transactivation target gene. A, Quantification of protein expression using anti-PA2G4 and anti-MYCN antibodies against whole cell protein lysates from BE(2)-C and Kelly cells, following MYCN siRNA knockdown for 48 hours. B, mRNA expression of PA2G4 and MYCN in SH-EP MYCN3 overexpression cells treated with 1µg/ml doxycycline for 24-96 hr. C, The effect of doxycycline-induced MYCN overexpression in SHEP-TRE-MYCN cells on c-MYC and PA2G4 protein expression. D, Chromatin immunoprecipitation (ChIP) assay in Kelly cells using an anti-MYCN antibody, and real-time PCR analysis with primers identifying the MYCN DNA binding sites in the PA2G4 gene promoter (500bP upstream of transcription start site [TSS]) or Intron 1a & 1b regions of the PA2G4 gene, with and without MYCN siRNA knockdown. ChIP and real-time PCR analysis using primers against a region 1200bp upstream of TSS was used as a negative control for MYCN chromatin binding. ChIP and real-time PCR analysis using primers against the ornithine decarboxylase (ODC1) gene promoter region was used as a positive control for MYCN chromatin binding. E, Immunoblot analysis of PA2G4, MYCN and MYC protein levels in a panel of human MYCN amplified and non-amplified neuroblastoma, and normal fibroblast, cell lines using antibodies recognising PA2G4, MYCN and MYC.

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National Health and Medical Research Counci

NHMRC

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ARTICLE ABSTRACT

MYCN is a major driver for the childhood cancer, neuroblastoma, however, there are no inhibitors of this target. Enhanced MYCN protein stability is a key component of MYCN oncogenesis and is maintained by multiple feedforward expression loops involving MYCN transactivation target genes. Here, we reveal the oncogenic role of a novel MYCN target and binding protein, proliferation-associated 2AG4 (PA2G4). Chromatin immunoprecipitation studies demonstrated that MYCN occupies the PA2G4 gene promoter, stimulating transcription. Direct binding of PA2G4 to MYCN protein blocked proteolysis of MYCN and enhanced colony formation in a MYCN-dependent manner. Using molecular modeling, surface plasmon resonance, and mutagenesis studies, we mapped the MYCN–PA2G4 interaction site to a 14 amino acid MYCN sequence and a surface crevice of PA2G4. Competitive chemical inhibition of the MYCN–PA2G4 protein–protein interface had potent inhibitory effects on neuroblastoma tumorigenesis in vivo. Treated tumors showed reduced levels of both MYCN and PA2G4. Our findings demonstrate a critical role for PA2G4 as a cofactor in MYCN-driven neuroblastoma and highlight competitive inhibition of the PA2G4-MYCN protein binding as a novel therapeutic strategy in the disease. Competitive chemical inhibition of the PA2G4–MYCN protein interface provides a basis for drug design of small molecules targeting MYC and MYCN-binding partners in malignancies driven by MYC family oncoproteins.

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