MYCN acts as a direct co-regulator of p53 in MYCN amplified neuroblastoma

The MYC oncogenes and p53 have opposing yet interrelated roles in normal development and tumorigenesis. How MYCN expression alters the biology and clinical responsiveness of pediatric neuroblastoma remains poorly defined. Neuroblastoma is p53 wild type at diagnosis and repression of p53 signaling is...

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Published in:Oncotarget 2018-04, Vol.9 (29), p.20323-20338
Main Authors: Agarwal, Saurabh, Milazzo, Giorgio, Rajapakshe, Kimal, Bernardi, Ronald, Chen, Zaowen, Barbieri, Eveline, Koster, Jan, Perini, Giovanni, Coarfa, Cristian, Shohet, Jason M
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container_end_page 20338
container_issue 29
container_start_page 20323
container_title Oncotarget
container_volume 9
creator Agarwal, Saurabh
Milazzo, Giorgio
Rajapakshe, Kimal
Bernardi, Ronald
Chen, Zaowen
Barbieri, Eveline
Koster, Jan
Perini, Giovanni
Coarfa, Cristian
Shohet, Jason M
description The MYC oncogenes and p53 have opposing yet interrelated roles in normal development and tumorigenesis. How MYCN expression alters the biology and clinical responsiveness of pediatric neuroblastoma remains poorly defined. Neuroblastoma is p53 wild type at diagnosis and repression of p53 signaling is required for tumorigenesis. Here, we tested the hypothesis that MYCN amplification alters p53 transcriptional activity in neuroblastoma. Interestingly, we found that MYCN directly binds to the tetrameric form of p53 at its C-terminal domain, and this interaction is independent of MYCN/MAX heterodimer formation. Chromatin analysis of MYCN and p53 targets reveals dramatic changes in binding, as well as co-localization of the MYCN-p53 complex at p53-REs and E-boxes of genes critical to DNA damage responses and cell cycle progression. RNA sequencing studies show that MYCN-p53 co-localization significantly modulated the expression of p53 target genes. Furthermore, MYCN-p53 interaction leads to regulation of alternative p53 targets not regulated in the presence of low MYCN levels. These novel targets include a number of genes involved in lipid metabolism, DNA repair, and apoptosis. Taken together, our findings demonstrate a novel oncogenic role of MYCN as a transcriptional co-regulator of p53 in high-risk MYCN amplified neuroblastoma. Targeting this novel oncogenic function of MYCN may enhance p53-mediated responses and sensitize MYCN amplified tumors to chemotherapy.
doi_str_mv 10.18632/oncotarget.24859
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title MYCN acts as a direct co-regulator of p53 in MYCN amplified neuroblastoma
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