Journal
Cancer Research, 2020
Authors
Annaïck Carles, Genny Trigo-Gonzalez, Rachelle Cao, S-W Grace Cheng, Michelle Moksa, Misha Bilenky, David G Huntsman, Gregg B Morin, Martin Hirst

The somatic missense point mutation c.402C>G (p.C134W) in the FOXL2 transcription factor is pathognomonic for adult-type granulosa cell tumors (AGCT) and a diagnostic marker for this tumor type. However, the molecular consequences of this mutation and its contribution to the mechanisms of AGCT pathogenesis remain unclear. To explore these mechanisms, we engineered V5-FOXL2WT- and V5-FOXL2C134W-inducible isogenic cell lines and performed ChIP-seq and transcriptome profiling. FOXL2C134W associated with the majority of the FOXL2 WT DNA elements as well as a large collection of unique elements genome-wide. This model enabled confirmation of altered DNA binding specificity for FOXL2C134W and identification of unique targets of FOXL2C134W including SLC35F2, whose expression increased sensitivity to YM155. Our results suggest FOXL2C134W drives AGCT by altering the binding affinity of FOXL2-containing complexes to engage an oncogenic transcriptional program.

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