Abstract
Despite intensive multimodal therapy, the survival rate for high risk neuroblastoma (HR-NB) remains <50%. Most cases initially respond to treatment but almost half will subsequently relapse with aggressive treatment resistant disease. Novel treatments exploiting the molecular pathology of NB and/or overcoming resistance to current genotoxic therapies are needed before survival rates can significantly improve. DNA damage response (DDR) defects are frequently observed in HR-NB including allelic deletion and loss of function mutations in key DDR genes, oncogene induced replication stress and cell cycle checkpoint dysfunction. Exploiting defects in the DDR has been a successful treatment strategy in some adult cancers. Here we review the genetic features of HR-NB which lead to DDR defects and the emerging molecular targeting agents to exploit them.
Highlights
Neuroblastoma (NB) is a rare childhood cancer derived from cells of the embryonal neural crest
NB cases are categorized into three risk groups, low, intermediate and high risk according to the International Neuroblastoma risk group (INRG) classification system on the basis of age at diagnosis, tumor stage, histopathology and molecular abnormalities including MYCN status and DNA copy number abnormalities [17]
DNA damage affecting both DNA strands, such as double strand breaks (DSBs), replication stress and interstrand crosslinks are repaired by non-homologous end joining (NHEJ) [114], homologous recombination repair (HRR) [115] and the Fanconi anemia (FA) pathway
Summary
The survival rate for high risk neuroblastoma (HRNB) remains
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