Neuroblastoma

Overview

Journal Jpn J Clin Oncol

Publisher Oxford University Press

Specialty Oncology

Date 2018 Jan 30

PMID 29378002

Citations 107

Authors

Akira Nakagawara

Yuanyuan Li

Hideki Izumi

Katsumi Muramori

Hiroko Inada

Masanori Nishi

Affiliations

Soon will be listed here.

Abstract

Neuroblastoma is one of the most common solid tumors in children and has a diverse clinical behavior that largely depends on the tumor biology. Neuroblastoma exhibits unique features, such as early age of onset, high frequency of metastatic disease at diagnosis in patients over 1 year of age and the tendency for spontaneous regression of tumors in infants. The high-risk tumors frequently have amplification of the MYCN oncogene as well as segmental chromosome alterations with poor survival. Recent advanced genomic sequencing technology has revealed that mutation of ALK, which is present in ~10% of primary tumors, often causes familial neuroblastoma with germline mutation. However, the frequency of gene mutations is relatively small and other aberrations, such as epigenetic abnormalities, have also been proposed. The risk-stratified therapy was introduced by the Japan Neuroblastoma Study Group (JNBSG), which is now moving to the Neuroblastoma Committee of Japan Children's Cancer Group (JCCG). Several clinical studies have facilitated the reduction of therapy for children with low-risk neuroblastoma disease and the significant improvement of cure rates for patients with intermediate-risk as well as high-risk disease. Therapy for patients with high-risk disease includes intensive induction chemotherapy and myeloablative chemotherapy, followed by the treatment of minimal residual disease using differentiation therapy and immunotherapy. The JCCG aims for better cures and long-term quality of life for children with cancer by facilitating new approaches targeting novel driver proteins, genetic pathways and the tumor microenvironment.

Citing Articles

Prognostic Value of Molecular Aberrations in Low- or Intermediate-Risk Neuroblastomas: A Systematic Review.

Bruinsma R, Lekkerkerker C, Fiocco M, Dierselhuis M, Langenberg K, Tytgat G Cancers (Basel). 2025; 17(1.

PMID: 39796644 PMC: 11718975. DOI: 10.3390/cancers17010013.

High Tumoral KPNA2 Expression Is a PotentialBiomarker for Poor Prognosis in Advanced Neuroblastoma Patients.

Otake S, Ogushi K, Dorjkhorloo G, Yokobori T, Nishi A, Kuwano H Cancer Diagn Progn. 2025; 5(1):1-7.

PMID: 39758242 PMC: 11696343. DOI: 10.21873/cdp.10404.

HOTTIP rs1859168 C > A polymorphism reduces neuroblastoma susceptibility in Chinese children.

Zhang T, Yin H, Guo J, Chang J, Li M, He J Eur J Pediatr. 2024; 184(1):104.

PMID: 39718648 DOI: 10.1007/s00431-024-05942-4.

The BE (2)-M17 neuroblastoma cell line: revealing its potential as a cellular model for Parkinson's disease.

Carvajal-Oliveros A, Roman-Martinez C, Reynaud E, Martinez-Martinez E Front Cell Neurosci. 2024; 18:1485414.

PMID: 39659447 PMC: 11628309. DOI: 10.3389/fncel.2024.1485414.

Cytogenomic Characterization of Murine Neuroblastoma Cell Line Neuro-2a and Its Two Derivatives Neuro-2a TR-Alpha and Neuro-2a TR-Beta.

Hergenhahn L, Padutsch N, Azawi S, Weiskirchen R, Liehr T, Rincic M Cells. 2024; 13(22).

PMID: 39594637 PMC: 11593031. DOI: 10.3390/cells13221889.