To elucidate the molecular events responsible for tumorigenesis and progression of ependymomas, we analyzed molecular alterations on the gene expression level in a series of newly diagnosed ependymal neoplasms (n ؍ 39). To this aim, tumor RNA was hybridized to microarrays comprising 2600 different genes with relevance to mitosis, cell-cycle control, oncogenesis, or apoptosis. For CLU, IGF-2, and RAF-1, which are apparent candidate genes because they had been previously described to be involved in tumorigenesis of other human malignancies, we found a high expression on the mRNA as well as the protein level. We identified gene expression signatures for the differentiation of tumors with respect to location, grade, and patient age. Spinal ependymomas were characterized by high-expression levels of HOXB5, PLA2G, and CDKN2A and tumors in young patients (<16 years of age) by high-expression levels of LDHB and STAM. Notably, we were able to classify supratentorial grade II and III tumors with 100% accuracy, whereas this did not apply for infratentorial Ependymal tumors arise from the ependymal lining of the cerebral ventricles and from the remnants of the central canal of the spinal cord. This neoplasm constitutes ϳ3 to 5% of all intracranial malignancies and is the third most common brain tumor in children and young adults. 1,2 In ependymomas, the morphological features and biological behavior vary considerably. Patients with spinal tumor location have usually a favorable prognosis after gross total resection, whereas local tumor progression is the predominant reason for death in patients with intracranial ependymomas, resulting in a 5-year overall survival of ϳ60%. [3][4][5] Because ependymomas are characterized by tremendous variability in clinical behavior, the understanding of the complex changes taking place at the genomic level might lead to more precise understanding of the tumor biology. Cytogenetic studies revealed numerous chromosomal aberrations in ependymomas. In particular, a 30 to 50% incidence of aberrations involving chromosome 22, including monosomy 22 as well as deletions of 22q, prevailed the most frequent finding. 6 -8 Recently, Hirose and co-workers 7 reported on different patterns of chromosomal abnormalities with respect to tumor location detected by comparative genomic hybridization. In intracranial tumors, gain of 1q and losses on 6q, 9, and 13 were frequent, whereas gains on chromosome 7 were recognized almost exclusively in spinal cord tumors and were associated with various other chromosomal aberrations including frequent loss of 22q, suggesting that intracranial and spinal cord ependymomas progress along substantially different pathways. As a hereditary form, neurofibromatosis type 2 is associated with spinal ependymomas, indicating a functional role of the NF2 tumor suppressor gene in these tumors. 9,10 In contrast to adults in which spinal tumors predominate, ϳ90% of all pediatric ependymomas are of intraSupported by the Bundesministerium fü r Bildung und Forschung (FKZ 01 KW 9937 and...
