Author:
Holland Eric C.,Hively Wendy P.,DePinho Ronald A.,Varmus Harold E.
Abstract
The epidermal growth factor receptor (EGFR) gene is amplified or mutated in 30%–50% of human gliobastoma multiforme (GBM). These mutations are associated usually with deletions of theINK4a–ARF locus, which encodes two gene products (p16INK4a and p19ARF) involved in cell-cycle arrest and apoptosis. We have investigated the role of EGFR mutation in gliomagenesis, using avian retroviral vectors to transfer a mutantEGFR gene to glial precursors and astrocytes in transgenic mice expressing tv-a, a gene encoding the retrovirus receptor. TVA, under control of brain cell type-specific promoters. We demonstrate that expression of a constitutively active, mutant form of EGFR in cells in the glial lineage can induce lesions with many similarities to human gliomas. These lesions occur more frequently with gene transfer to mice expressing tv-a from the progenitor-specific nestin promoter than to mice expressing tv-a from the astrocyte-specific glial fibrillary acidic protein (GFAP) promoter, suggesting that tumors arise more efficiently from immature cells in the glial lineage. Furthermore, EGFR-induced gliomagenesis appears to require additional mutations in genes encoding proteins involved in cell-cycle arrest pathways. We have produced these combinations by simultaneously infecting tv-a transgenic mice with vectors carrying cdk4 and EGFR or by infectingtv-a transgenic mice bearing a disrupted INK4a–ARFlocus with the EGFR-carrying vector alone. Moreover,EGFR-induced gliomagenesis does not occur in conjunction withp53 deficiency, unless the mice are also infected with a vector carrying cdk4. The gliomagenic combinations of genetic lesions required in mice are similar to those found in human gliomas.
Publisher
Cold Spring Harbor Laboratory
Subject
Developmental Biology,Genetics
Cited by
459 articles.
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