Literature DB >> 22367537

Sequencing of neuroblastoma identifies chromothripsis and defects in neuritogenesis genes.

Jan J Molenaar1, Jan Koster, 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 Ora, Evan E Santo, Huib N Caron, Ellen M Westerhout, Rogier Versteeg.   

Abstract

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 tumour. Frequently detected gene alterations are limited to MYCN amplification (20%) and ALK activations (7%). 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 neuroblastoma. These tumours are associated with a poor outcome. Structural alterations recurrently affected ODZ3, PTPRD and CSMD1, which are involved in neuronal growth cone stabilization. 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.

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Year:  2012        PMID: 22367537     DOI: 10.1038/nature10910

Source DB:  PubMed          Journal:  Nature        ISSN: 0028-0836            Impact factor:   49.962


  35 in total

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9.  The guanine nucleotide exchange factor Tiam1 affects neuronal morphology; opposing roles for the small GTPases Rac and Rho.

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  392 in total

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Review 4.  Therapeutic targets for neuroblastomas.

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