====== Neuroblastoma outcome ====== For children with low-risk neuroblastoma, the 5-year survival rate is higher than 95%. For children with intermediate-risk neuroblastoma, the 5-year survival rate is between 90% and 95%. For high-risk neuroblastoma, the the-5-year survival rate is around 40% to 50%. ---- The unfavorable prognosis with a high risk of relapse and death in NB correlates with age over 18 months at diagnosis, advanced disease stage, and established genetic markers. Amplification of the [[MYCN]] oncogene (MNA) is the most robust genetic factor correlated with poor clinical outcome and can be found in about 16–20% of NB cases (and up to 40% in high-risk tumors) ((Ambros PF, Ambros IM, Brodeur GM, Haber M, Khan J, Nakagawara A, et al. . International consensus for neuroblastoma molecular diagnostics: Report from the International Neuroblastoma Risk Group (INRG) Biology Committee. Br J Cancer. (2009) 100:1471–82. 10.1038/sj.bjc.6605014)) ((Canete A, Gerrard M, Rubie H, Castel V, Di Cataldo A, Munzer C, et al. . Poor survival for infants with MYCN amplified metastatic neuroblastoma despite intensified treatment: the International Society of Paediatric Oncology European Neuroblastoma Experience. J Clin Oncol. (2009) 27:1014–9. 10.1200/JCO.2007.14.5839)) ((Huang M, Weiss WA. Neuroblastoma and MYCN. Cold Spring Harb Perspect Med. (2013) 3:a014415. 10.1101/cshperspect.a014415)) ((Cohn SL, Pearson AD, London WB, Monclair T, Ambros PF, Brodeur GM, et al. . The International Neuroblastoma Risk Group (INRG) classification system: an INRG task force report. J Clin Oncol. (2009) 27:289–97. 10.1200/JCO.2008.16.6785)) ((Thompson D, Vo KT, London WB, Fischer M, Ambros PF, Nakagawara A, et al. . Identification of patient subgroups with markedly disparate rates of MYCN amplification in neuroblastoma: a report from the International Neuroblastoma Risk Group project. Cancer. (2016) 122:935–45. 10.1002/cncr.29848)). ---- The regulation of NB [[cell death]] by MYCN represents an important aspect, as it directly contributes to [[tumor progression]] and therapeutic resistance. However, the relationship between MYCN and [[cell death]] remains elusive. [[Ferroptosis]] is a newly identified cell death mode featured by [[lipid peroxide]] accumulation that can be attenuated by [[GPX4]], yet whether and how MYCN regulates ferroptosis are not fully understood. Lu et al. reported MYCN-amplified NB cells are sensitive to GPX4-targeting ferroptosis inducers. Mechanically, MYCN expression reprograms the cellular [[iron metabolism]] by upregulating the expression of [[TFRC]], which encodes [[transferrin receptor 1]] as a key iron transporter on the cell membrane. Further, the increased [[iron]] uptake promotes the accumulation of labile iron pool, leading to enhanced [[lipid peroxide]] production. Consistently, TFRC overexpression in NB cells also induces selective sensitivity to GPX4 inhibition and ferroptosis. Moreover, they found that MYCN fails to alter the general [[lipid metabolism]] and the amount of [[cystine]] imported by System Xc(-) for [[glutathione]] synthesis, both of which contribute to ferroptosis in alternative contexts. In conclusion, NB cells harboring [[MYCN]] amplification are prone to undergo [[ferroptosis]] conferred by [[TFRC]] upregulation, suggesting that [[GPX4]]-targeting ferroptosis inducers or [[TFRC]] agonists can be potential strategies in treating MYCN-amplified NB ((Lu Y, Yang Q, Su Y, Ji Y, Li G, Yang X, Xu L, Lu Z, Dong J, Wu Y, Bei JX, Pan C, Gu X, Li B. MYCN mediates TFRC-dependent ferroptosis and reveals vulnerabilities in neuroblastoma. Cell Death Dis. 2021 May 19;12(6):511. doi: 10.1038/s41419-021-03790-w. PMID: 34011924.)).