Loss of chromosome 13q occurs in up to 50% of human astrocytomas, suggesting the presence of an astrocytoma tumor suppressor gene on that chromosome. To determine whether the retinoblastoma susceptibility gene (Rb) on 13q14 contributes to the formation of astrocytomas, we examined 85 tumors for loss of heterozygosity (LOH) at the intragenic Rb 1.20 locus. LOH was detected in 16 of 54 informative high-grade astrocytomas (30%), but was not detected in 12 low-grade gliomas. Deletion mapping with flanking markers on 13q revealed that the Rb 1.20 region was preferentially targeted by the deletions. Tumors with LOH at Rb 1.20 were examined for mutations in the remaining Rb allele using single-strand conformational polymorphism (SSCP) analysis and direct DNA sequencing. Mutations were detected in exon 8 (1 tumor), exon 24 (2 tumors), and intron 24 (1 tumor). Rb protein expression, as assessed by immunohistochemistry, was altered in 3 of 9 cases with LOH and in 1 tumor without LOH. Our results demonstrate that Rb inactivation contributes to the formation of high-grade astrocytomas, and therefore implicate a second, known tumor suppressor gene in astrocytoma tumorigenesis.
Human astrocytomas frequently have allelic losses of chromosome 9p, suggesting the presence of a 9p astrocytoma tumor suppressor gene. The MTS1 (or CDKN2) gene on chromosome 9p encodes a cell-cycle regulator and is deleted in approximately 80% of astrocytoma cell lines. To determine whether MTS1 is the tumor suppressor gene involved in human astrocytoma formation in vivo, we have analyzed chromosome 9p allelic loss and the MTS1 gene in 30 primary astrocytomas. Deletion mapping demonstrated 15 cases with allelic loss of chromosome 9p, with all losses either flanking or involving the MTS1 gene. Direct analysis of the MTS1 gene, however, revealed only a single missense mutation in a high-grade tumor that had lost the second allele. The low frequency of MTS1 mutations in primary astrocytomas with allelic 9p loss suggests that MTS1 may be more important for in vitro than in vivo astrocytoma growth, and that another 9p tumor suppressor gene may be involved in astrocytoma formation in vivo. Analysis of the MTS1 gene also demonstrated two intragenic polymorphisms, one in exon 2 and one in the 3' untranslated region, that can be used to assay allelic loss directly at MTS1.
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