Characterization of genomic alterations associated with glioma progression by comparative genomic hybridization

Abstract

Genomic alterations associated with glioma progression were determined by comparative genomic hybridization (CGH) 30 tumors from 15 patients with primary gliomas of World Health Organization (WHO) grade II that on recurrence showed progression to malignant gliomas of WHO grades III or IV (five cases of astrocytoma grade II (A II) to grade III (AA III), five cases of A II to glioblastoma multiforme grade IV (GBM) and five cases of oligodendroglioma grade II (O II) to grade III (AO III)). All tumors were additionally screened for p53 mutations by single strand conformational polymorphism and heteroduplex analysis of exons 5-8, followed by direct sequencing. Mutations of p53 were found in the primary and recurrent tumors of all cases of A II progressing to GBM and three of five cases of A II recurring as AA III. Alterations identified by CGH in more than one primary A II included losses on Xp (3/10) and 5p (2/10), gains on 8q and 19p (2/10 each), and gain/amplification on 12p (2/10). Common progression associated changes found in AA III or GBM were losses on 4q, 9p, 10q, 11p, 13q (4/10 each) and gains on 1q, 6p, 20q (2/10 each). The most frequent amplification site was located on 12p13 (1/10 A II, 3/5 AA III, 1/5 GBM). Other amplified chromosomal regions were 13q32-q34 (1/10 AII, 2/5 GBM), 7q31-qter (1/5 AA III, 1/5 GBM), 12q22-qter and 18p (1/5 AA III). In contrast to the astrocytic gliomas, only one of five oligodendroglial cases showed a p53 mutation. Genetic abnormalities identified by CGH to occur more than once were restricted to four chromosomes (1, 4, 9 and 19). Our results provide a comprehensive overview of the genomic alterations associated with the progression of individual gliomas and substantiate the hypothesis that glioma progression is associated with a cumulative acquisition of multiple genetic changes.