Prognostic Significance of Gene Expression Profiles of Metastatic Neuroblastomas Lacking MYCN Gene Amplification

Shahab Asgharzadeh, Roger Pique-Regi, Richard Sposto, Hong Wang, Yujun Yang, Hiroyuki Shimada, Katherine Matthay, Jonathan Buckley, Antonio Ortega, Robert C. Seeger

Affiliations of authors: Department of Pediatrics, Division of Hematology-Oncology (SA, RS, HW, YY, RCS) and Department of Pathology (HS), Childrens Hospital Los Angeles and Saban Research Institute, University of Southern California, Los Angeles, CA; Viterbi School of Engineering, University of Southern California, Los Angeles, CA (RPR, AO); University of California San Francisco, San Francisco, CA (KM); Keck School of Medicine, University of Southern California, Los Angeles, CA (SA, RS, HS, JB, RCS); Children's Oncology Group, Arcadia, CA (SA, RS, KM, RCS)

Correspondence to: Robert Seeger, MD, Division of Hematology/Oncology, Childrens Hospital Los Angeles, 4650 Sunset Boulevard, Mail Stop #57, Los Angeles, CA 90027 (e-mail: rseeger{at}chla.usc.edu).

Background: The aggressiveness of metastatic neuroblastomasthat lack MYCN gene amplification varies with age—theyare least aggressive when diagnosed in patients younger than12 months and most aggressive when diagnosed in patients olderthan 24 months. However, age at diagnosis is not always associatedwith patient survival. We examined whether molecular classificationof metastatic neuroblastomas without MYCN gene amplificationat diagnosis using gene expression profiling could improve theprediction of risk of disease progression. Methods: We usedAffymetrix microarrays to determine the gene expression profilesof 102 untreated primary neuroblastomas without MYCN gene amplificationobtained from children whose ages at diagnosis ranged from 0.1to 151 months. A supervised method using diagonal linear discriminantanalysis was devised to build a multigene model for predictingrisk of disease progression. The accuracy of the model was evaluatedusing nested cross-validations, permutation analyses, and geneexpression data from 15 additional tumors obtained at diseaseprogression. Results: An expression profile model using 55 genesdefined a tumor signature that distinguished two groups of patientsfrom among those older than 12 months at diagnosis and clinicallyclassified as having high-risk disease, those with a progression-freesurvival (PFS) rate of 16% (95% confidence interval [CI] = 8%to 28%), and those with a PFS rate of 79% (95% CI = 57% to 91%)(P<.01). These tumor signatures also identified two groupsof patients with PFS of 15% (95% CI = 7% to 27%) and 69% (95%CI = 40% to 86%) (P<.01) from among patients who were olderthan 18 months at diagnosis. The gene expression signature ofuntreated molecular high-risk tumors was also present in progressivelygrowing tumors. Conclusion: Gene expression signatures of tumorsobtained at diagnosis from patients with clinically indistinguishablehigh-risk, metastatic neuroblastomas identify subgroups withdifferent outcomes. Accurate identification of these subgroupswith gene expression profiles may facilitate development, implementation,and analysis of clinical trials aimed at improving outcome.

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Development and Evaluation of Therapeutically Relevant Predictive Classifiers Using Gene Expression Profiling: Richard Simon
J Natl Cancer Inst 2006 98: 1169-1171. [Extract] [Full Text] [PDF]

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Prognostic Significance of Gene Expression Profiles of Metastatic Neuroblastomas Lacking MYCN Gene Amplification