MYCN in neuroblastoma: The kings' new clothes and drugs

Mareike Müller , Katrin Trunk , Daniel Fleischhauer , Gabriele Büchel
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Abstract

Deregulated levels of the MYCN oncogene contribute to the tumorigenesis of several human tumors including neuroblastoma. MYCN amplification classifies neuroendocrine tumors as high-risk and as a consequence is an unfavorable prognostic factor. MYCN has long been primarily described as a transcription factor, which binds to active promoters after heterodimerizing with MAX and directly regulates gene expression programs. New findings show that MYC proteins have novel oncogenic functions that are tumor-promoting and go beyond the regulation of gene expression. This review describes how MYCN continuously drives tumor progression by forming various protein complexes, for example to resolve torsional stress, coordinate transcription and replication, repair DNA damage and regulate R-loops. Interfering with the described processes as well as interfering with MYCN chromatin binding emerge as novel treatment strategies to indirectly target the oncoprotein. Furthermore, we describe the role of MYCN in metabolism and we review how these newly described functions of MYCN could be used as vulnerabilities for MYCN-driven tumors. Recent studies show that MYC proteins are capable of multimerizing at sites of genomic instability to protect cancer cells from stress. Additionally, MYCN can bind aberrant RNA transcripts, another feature to enhance the stress resilience of cancer cells, once again highlighting the oncogenic potential of MYC. Taken together, we show that the diverse functions of MYCN depend on its temporal and spatial dynamic interactome, making those interaction partners and functions crucial factors in the treatment of MYCN-related cancer.

神经母细胞瘤中的 MYCN:国王的新衣和药物
MYCN 致癌基因水平失调是包括神经母细胞瘤在内的多种人类肿瘤发生的原因之一。MYCN 扩增将神经内分泌肿瘤归为高危肿瘤,因此是一个不利的预后因素。长期以来,MYCN 主要被描述为一种转录因子,它与 MAX 异源二聚体后与活跃的启动子结合,直接调控基因表达程序。新的研究结果表明,MYC 蛋白具有新的致癌功能,不仅能调节基因表达,还能促进肿瘤生长。本综述介绍了 MYCN 如何通过形成各种蛋白质复合物,例如解决扭转应力、协调转录和复制、修复 DNA 损伤和调节 R 环,不断推动肿瘤的发展。干扰所述过程以及干扰 MYCN 染色质结合成为间接针对该肿瘤蛋白的新型治疗策略。此外,我们还描述了 MYCN 在新陈代谢中的作用,并回顾了如何利用这些新描述的 MYCN 功能作为 MYCN 驱动的肿瘤的弱点。最近的研究表明,MYC 蛋白能够在基因组不稳定的位点多聚化,以保护癌细胞免受压力。此外,MYCN 还能结合异常 RNA 转录本,这是增强癌细胞抗应激能力的另一个特征,再次凸显了 MYC 的致癌潜力。综上所述,我们发现 MYCN 的多种功能取决于其时空动态相互作用组,因此这些相互作用伙伴和功能成为治疗 MYCN 相关癌症的关键因素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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