posted on 2023-03-30, 18:05authored byChang-Hyuk Kwon, Dawen Zhao, Jian Chen, Sheila Alcantara, Yanjiao Li, Dennis K. Burns, Ralph P. Mason, Eva Y.-H. P. Lee, Hong Wu, Luis F. Parada
Supplementary Figure 1 from Pten Haploinsufficiency Accelerates Formation of High-Grade Astrocytomas
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ARTICLE ABSTRACT
We previously reported that central nervous system (CNS) inactivation of Nf1 and p53 tumor suppressor genes in mice results in the development of low-grade to high-grade progressive astrocytomas. When the tumors achieve high grade, they are frequently accompanied by Akt activation, reminiscent of the frequent association of PTEN mutations in human high-grade glioma. In the present study, we introduced CNS heterozygosity of Pten into the Nf1/p53 astrocytoma model. Resulting mice had accelerated morbidity, shortened survival, and full penetrance of high-grade astrocytomas. Haploinsufficiency of Pten accelerated formation of grade 3 astrocytomas, whereas loss of Pten heterozygosity and Akt activation coincided with progression into grade 4 tumors. These data suggest that successive loss of each Pten allele may contribute to de novo formation of high-grade astrocytoma and progression into glioblastoma, respectively, thus providing insight into the etiology of primary glioblastoma. The presence of ectopically migrating neural stem/progenitor lineage cells in presymptomatic Pten-deficient mutant brains supports the notion that these tumors may arise from stem/progenitor cells. [Cancer Res 2008;68(9):3286–94]