We conducted a population-based study on glioblastomas in the Canton of Zurich, Switzerland (population, 1.16 million) to determine the frequency of major genetic alterations and their effect on patient survival. Between 1980 and 1994, 715 glioblastomas were diagnosed. The incidence rate per 100,000 population/year, adjusted to the World Standard Population, was 3.32 in males and 2.24 in females. Observed survival rates were 42.4% at 6 months, 17.7% at 1 year, and 3.3% at 2 years. For all of the age groups, younger patients survived significantly longer, ranging from a median of 8.8 months (<50 years) to 1.6 months (>80 years). Loss of heterozygosity (LOH) 10q was the most frequent genetic alteration (69%), followed by EGFR amplification (34%), TP53 mutations (31%), p16INK4a deletion (31%), and PTEN mutations (24%). LOH 10q occurred in association with any of the other genetic alterations and was predictive of shorter survival. Primary (de novo) glioblastomas prevailed (95%), whereas secondary glioblastomas that progressed from low-grade or anaplastic gliomas were rare (5%). Secondary glioblastomas were characterized by frequent LOH 10q (63%) and TP53 mutations (65%). Of the TP53 mutations in secondary glioblastomas, 57% were in hotspot codons 248 and 273, whereas in primary glioblastomas, mutations were more equally distributed. G:C3 A:T mutations at CpG sites were more frequent in secondary than primary glioblastomas (56% versus 30%; P ؍ 0.0208). This suggests that the acquisition of TP53 mutations in these glioblastoma subtypes occurs through different mechanisms.
We carried out a population-based study on low-grade diffuse gliomas in the Canton of Zurich, Switzerland (population 1.16 million). From 1980 to 1994, 987 astrocytic and oligodendroglial tumors were diagnosed, of which 122 (12.4%) were low-grade (WHO grade II). The incidence rates adjusted to the World Standard Population, per million population per year, were 2.28 for low-grade diffuse astrocytomas, 0.89 for oligoastrocytomas, and 2.45 for oligodendrogliomas. The survival rate (mean follow-up 7.5+/-4.8 years) was highest for patients with oligodendroglioma (78% at 5 years, 51% at 10 years), followed by those with oligoastrocytoma (70% at 5 years, 49% at 10 years) and fibrillary astrocytoma (65% at 5 years, 31% at 10 years). Survival of patients with gemistocytic astrocytoma was poor, with survival rates of 16% at 5 years and 0% at 10 years. Younger patients (<50 years) survived significantly longer than older patients (>50 years; P=0.013). DNA sequencing, performed in 84% of cases, revealed that TP53 mutations were most frequent in gemistocytic astrocytomas (88%), followed by fibrillary astrocytomas (53%) and oligoastrocytomas (44%), but were infrequent (13%) in oligodendrogliomas. The presence of TP53 mutations was associated with shorter survival of patients with low-grade diffuse gliomas (log-rank test; P=0.047), but when each histological type was analyzed separately, an association was observed only for oligoastrocytoma ( P=0.05). Loss on 1p and 19q were assessed by quantitative microsatellite analysis in 67% of cases. These alterations were frequent in oligodendrogliomas (1p, 57%; 19q, 69%), less common in oligoastrocytomas (1p, 27%; 19q, 45%), rare in fibrillary astrocytomas (1p, 7%; 19q, 7%), and absent in gemistocytic astrocytomas. None of these alterations were predictive of survival. These results establish the frequency of key genetic alterations in low-grade diffuse gliomas at a population-based level. Multivariate Cox's regression analysis indicates that only age and histological type, but not genetic alterations, are significant predictive factors.
This population-based study shows that, because of the benign biological behavior of pilocytic astrocytomas and advances in microneurosurgery, the survival rates for patients with these tumors are excellent, regardless of postoperative radiotherapy.
Oligodendrogliomas typically show loss of heterozygosity (LOH) on chromosomes 1p and 19q, which correlates with their response to chemotherapy, whereas low-grade astrocytomas are characterized by frequent TP53 mutations and lack of sensitivity to alkylating therapeutic agents. Unequivocal histological distinction of low-grade diffuse astrocytomas from oligodendrogliomas and oligoastrocytomas is often difficult. To elucidate the relationships between morphological phenotype and genetic profile, we screened 19 oligodendrogliomas (WHO grade II) and 23 low-grade diffuse astrocytomas (WHO grade II) for TP53 mutations and LOH on 1p and 19q. In oligodendrogliomas, LOH on chromosomes 1p and/or 19q was found in 15 cases (79%) and TP53 mutation was detected in 4 cases (21%). The presence of a typical perinuclear halo in >50% of tumour cells and a chicken-wire vascular pattern were significantly associated with LOH on 1p or 19q (93% of cases). This suggests that oligodendrogliomas with classical histologic features are likely to have a better prognosis. In low-grade diffuse astrocytomas, LOH on chromosomes 1p and/or 19q was found in three cases (13%) and TP53 mutation was detected in ten cases (43%). Histologically, five low-grade astrocytomas (22%) contained small areas with oligodendroglial differentiation, but this did not correlate with the presence of TP53 mutations or LOH on 1p and 19q. In both oligodendrogliomas and astrocytomas, LOH on chromosomes 1p or 19q and TP53 mutation were mutually exclusive. Methylation of the promoter of the gene for O (6)-methylguanine-DNA methyltransferase (MGMT), a DNA repair protein, which confers resistance to chemotherapy with alkylating agents, was detected in 47% of oligodendrogliomas and 48% of low-grade diffuse astrocytomas. There was no correlation with LOH on chromosomes 1p/19q, suggesting that MGMT may not be a prognostic marker for oligodendrogliomas.
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