Whole-exome sequencing, EGFR amplification and infiltration patterns in human glioblastoma
Date
2021Abstract
Glioblastoma (GBM) is the most common malignant primary brain tumor in adults. This cancer shows
rapid, highly infiltrative growth, that invades individually or in small groups the surrounding tissue. The aggressive tumor biology of GBM has devastating consequences with a median survival of 15 months. GBM often has Epidermal
Growth Factor Receptor (EGFR) abnormalities. Despite recent advances in the study of GBM tumor biology, it is
unclear whether mutations in GBM are related to EGFR amplification and relevant phenotypes like tumor infiltration.
This study aimed to perform whole-exome sequencing analysis in 30 human GBM samples for identifying mutational portraits associated with EGFR amplification and infiltrative patterns. Our results show that EGFR-amplified
tumors have overall higher mutation rates than EGFR-no-amplified. Six genes out of 2029 candidate genes show
mutations associated with EGFR amplification status. Mutations in these genes for GBM are novel, not previously
reported in GBM, and with little presence in the TCGA database. GPR179, USP48, and BLK show mutation only in
EGFR-amplified cases, and all the affected cases exhibit diffuse infiltrative patterns. On the other hand, mutations
in ADGB, EHHADH, and PTPN13, were present only in the EGFR-no-amplified group with a more diverse infiltrative
phenotype. Overall, our work identified different mutational portraits of GBM related to well-established features like
EGFR amplification and tumor infiltration.