Acquisition of the Glioblastoma Phenotype during Astrocytoma Progression Is Associated with Loss of Heterozygosity on 10q25-qter

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Acquisition of the Glioblastoma Phenotype during Astrocytoma Progression Is Associated with Loss of Heterozygosity on 10q25-qter

Hironori Fujisawa^*, Michael Kurrer, Rui M. Reis^*, Yasuhiro Yonekawa, Paul Kleihues^* and Hiroko Ohgaki^*

From the International Agency for Research on Cancer,^*
Lyon, France; and the Departments of Pathology
and Neurosurgery,
University Hospital, Zürich, Switzerland

Loss of heterozygosity on chromosome 10 (LOH#10) is the most frequentgenetic alteration in glioblastomas and occurs in more than 80%of cases. We recently reported that PTEN (MMAC1) on 10q23.3is mutated in approximately 30% of primary (de novo) glioblastomasbut rarely in secondary glioblastomas that progressed from low-gradeor anaplastic astrocytomas. Because secondary glioblastomasalso show LOH#10, tumor suppressor genes other than PTEN arelikely to be involved. We analyzed LOH on chromosomes 10 and19, using polymorphic microsatellite markers in microdissectedfoci showing histologically an abrupt transition from low-gradeor anaplastic astrocytoma to glioblastoma, suggestive of theemergence of a new tumor clone. When compared to the respective low-gradeor anaplastic astrocytoma of the same biopsy, deletions weredetected in 7 of 8 glioblastoma foci on 10q25-qter distal toD10S597, covering the DMBT1 and FGFR2 loci. Six of 8 foci showedLOH at one or two flanking markers of PTEN but did not contain PTENmutations. LOH on 10p and 19q was found in only one case each.These data indicate that acquisition of a highly anaplastic glioblastomaphenotype with marked proliferative activity and lack of glialfibrillary acidic protein expression is associated with lossof a putative tumor suppressor gene on 10q25-qter.

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Acquisition of the Glioblastoma Phenotype during Astrocytoma Progression Is Associated with Loss of Heterozygosity on 10q25-qter