Background: The prognostic chromosomal markers 1p loss and MYCN amplification (MNA) are only present in a subgroup of approximately 30% of neuroblastomas. To further characterize high and low risk subsets we investigated alterations in chromosome arms 3p and 11q, additional changes in 1p and MYCN as well as the somy-status of chromosome 1 in the same sample.
Procedure: Fluorescence in situ hybridization (FISH) was used as an alternative technique to PCR/LOH- or comparative genomic hybridization (CGH) analyses. Alterations in chromosomes 3p and 11q were investigated in 182 unselected tumors, 1p loss and MNA in 174 and 179 of these, respectively. The somy-status of chromosome 1 was determined in 165 tumors as it highly correlates with the tumor ploidy.
Results: Alterations in the four chromosomal regions were found in the following frequencies: 3p26: 19%, 11q23: 29%, 1p36: 29%, MNA: 19%. Fifty-two percent of all cases displayed structural aberrations in at least one chromosomal region, 83% in stage 4 and 30% in stages 1-3, 4s. All aberrations were thus correlated with stage 4 disease but were also present in a substantial subset of localized and 4s tumors. Trisomy of chromosome 1 was found in 38% of the tumors, disomy or tetrasomy in 62%. Patients with alterations in any of the four chromosomes and di/tetrasomy 1 showed a significantly increased age at diagnosis. Loss in 1p and MNA were closely associated with each other, as well as 3p and 11q aberrations but not the groups 1p/MNA versus 3p/11q. Only a small portion of trisomic tumors showed aberrations in at least one of the four chromosomal regions (14%) in contrast to the majority of the di/tetrasomic cases (74%). As already known the MYCN status discriminated between good and poor outcome in localized and metastatic stage 4 tumors. In addition alterations in 1p or 11q, deletion in 3p and di/tetrasomy 1 were associated with an unfavorable prognosis in MYCN single copy tumors of stages 1-3, 4s. Multivariate analysis revealed 11q alterations and MNA as the most important chromosomal prognostic factors in all stages.
Conclusion: FISH analyses for chromosomal alterations in 3p and 11q as well as in 1p and MYCN allows to define different groups with an increased risk for disease progression.
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