Fusion genes are chromosomal
aberrations that are found in many cancers and can be used as prognostic
markers and drug targets in clinical practice. Fusions can lead to production
of oncogenic fusion proteins or to enhanced expression of oncogenes. Several
recent studies have reported that some fusion genes can escape microRNA
regulation via 3'-untranslated region (3'-UTR) deletion. We performed whole
transcriptome sequencing to identify fusion genes in glioma and discovered
FGFR3-TACC3 fusions in 4 of 48 glioblastoma samples from patients both of mixed
European and of Asian descent, but not in any of 43 low-grade glioma samples
tested. The fusion, caused by tandem duplication on 4p16.3, led to the loss of
the 3'-UTR of FGFR3, blocking gene regulation of miR-99a and enhancing
expression of the fusion gene. The fusion gene was mutually exclusive with EGFR,
PDGFR, or MET amplification. Using cultured glioblastoma cells and a mouse
xenograft model, we found that fusion protein expression promoted cell
proliferation and tumor progression, while WT FGFR3 protein was not
tumorigenic, even under forced overexpression. These results demonstrated that
the FGFR3-TACC3 gene fusion is expressed in human cancer and generates an
oncogenic protein that promotes tumorigenesis in glioblastoma.
Source: The tumorigenic FGFR3-TACC3
gene fusion escapes miR-99a regulation in glioblastoma. Parker BC, Annala MJ,
Cogdell DE, Granberg KJ, Sun Y, Ji P, Li X, Gumin J, Zheng H, Hu L, Yli-Harja
O, Haapasalo H, Visakorpi T, Liu X, Liu CG, Sawaya R, Fuller GN, Chen K, Lang
FL, Nykter M, Zhang W (wzhang@mdanderson.org).
J Clin Invest. 2013 Jan 9.
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