Portal de Periódicos da CAPES

Sequencing of neuroblastoma identifies chromothripsis and defects in neuritogenesis genes

2012; Nature Portfolio; Volume: 483; Issue: 7391 Linguagem: Inglês

10.1038/nature10910

1476-4687

Jan J. Molenaar, Jan Köster, Danny A. Zwijnenburg, Peter van Sluis, Linda J. Valentijn, Ida van der Ploeg, Mohamed Hamdi, Johan van Nes, Bart A. Westerman, Jennemiek van Arkel, Marli E. Ebus, Franciska Haneveld, Arjan Lakeman, Linda Schild, Piet Molenaar, Peter Stroeken, Max M. van Noesel, Ingrid Øra, Evan E. Santo, Huib N. Caron, Ellen M. Westerhout, Rogier Versteeg,

Microtubule and mitosis dynamics

Whole-genome sequencing of neuroblastoma, a childhood tumour of the nervous system, shows that chromothripsis (a local shredding of chromosomes) and mutations in genes regulating neurite growth are associated with the most aggressive tumours. Whole-genome sequencing is used here to identify genetic defects in 87 people with neuroblastoma, a childhood tumour of the peripheral sympathetic nervous system. Analyses revealed few recurrent amino-acid-changing mutations, but a series of genes functioning in neuritogenesis and extension of neuronal growth cones were deleted in aggressive high-stage tumours. Chromothripsis, the localized shattering of the chromosomes, was common in high-stage tumours and was generally associated with poor prognosis. Neuroblastoma is a childhood tumour of the peripheral sympathetic nervous system. The pathogenesis has for a long time been quite enigmatic, as only very few gene defects were identified in this often lethal tumour1. Frequently detected gene alterations are limited to MYCN amplification (20%) and ALK activations (7%)2,3,4,5. Here we present a whole-genome sequence analysis of 87 neuroblastoma of all stages. Few recurrent amino-acid-changing mutations were found. In contrast, analysis of structural defects identified a local shredding of chromosomes, known as chromothripsis, in 18% of high-stage neuroblastoma6. These tumours are associated with a poor outcome. Structural alterations recurrently affected ODZ3, PTPRD and CSMD1, which are involved in neuronal growth cone stabilization7,8,9. In addition, ATRX, TIAM1 and a series of regulators of the Rac/Rho pathway were mutated, further implicating defects in neuritogenesis in neuroblastoma. Most tumours with defects in these genes were aggressive high-stage neuroblastomas, but did not carry MYCN amplifications. The genomic landscape of neuroblastoma therefore reveals two novel molecular defects, chromothripsis and neuritogenesis gene alterations, which frequently occur in high-risk tumours.