Abstract
Abstract Long Interspersed Element-1 (LINE-1 or L1) is the only autonomously active mobile genetic element in the human genome. It has been shown to mobilize (i.e., retrotranspose) in cancers, causing de novo somatic L1 insertions. Somatic L1 retrotransposition can cause aberrant splicing of tumor suppressor genes by utilizing cryptic splice donor (SD) sites such as the nucleotide 97 SD in the L1 5’UTR or disrupting repressive regulatory regions of proto-oncogenes, inducing aberrant activation, leading to cancer. In contrast to these reported mechanisms, here we report the first evidence of a driver oncogene activation due to somatic acquisition of an L1 promoter in a pediatric high-grade glioma (HGG). While investigating activation of FOXR2 (forkhead box R2), a known oncogene in CNS embryonal tumors, in a recurrent pediatric diffuse HGG that showed a methylation profile of CNS FOXR2-activated tumors, we identified overexpression of a non-canonical FOXR2 isoform. Transcription of FOXR2 initiated from ~11kb upstream of exon 2 at a site harboring a somatic structural variation (SV) reminiscent of an L1 insertion. Targeted PCR amplification and subsequent PacBio sequencing revealed a 5’ inverted/deleted L1 insertion (~3kb sequence) containing an intact L1 5’UTR, presence of a 3’ transduction sequence, two poly-A tails, and target site duplications. The 3’ transduction sequence matches the sequence downstream an intact polymorphic full-length L1 element at 6p24.1, the likely source L1 element that initiated the FOXR2 somatic insertion. Strikingly, tumor RNA-seq data reveals FOXR2 transcription initiated from the intact sense pol-II promoter of the inserted L1 5’UTR, generating a fusion transcript joining the L1 5’UTR 97 SD to a canonical splice acceptor within exon 2 of FOXR2. Targeted bisulfite sequencing of the FOXR2 L1 5’UTR revealed a hypomethylated state, further supporting its role in FOXR2 transcription initiation. FOXR2 activation is likely a tumor initiating event as the following was observed in the primary tumor that occurred two years prior: a matching recurrent tumor methylation profile, the presence of L1/FOXR2 fusion transcripts, and overexpression of FOXR2. Additional driver mutations, clonal TP53 R175H mutation and PDGFRA amplification, identified in the recurrent tumor but absent in the primary tumor, support the somatic L1 insertion as a tumor initiating event occurring prior to later acquired alterations. Our data represent the first example of oncogenic activation by L1 “promoter donation” via somatic retrotransposition as a novel tumor initiating mechanism. Future large-scale research and development of new computational methods for detecting rearranged L1 insertions are required to determine the prevalence of L1 “promoter donation” in cancer or other diseases. Citation Format: Xiaolong Chen, Diane A. Flasch, Bensheng Ju, Heather L. Mulder, John Easton, Lu Wang, Suzanne J. Baker, Jason Chiang, Jinghui Zhang. Oncogenic activation of FOXR2 driven by somatic acquisition of a LINE-1 promoter in pediatric high-grade glioma [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 1462.
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