An alternative miRISC targets a cancer-associated coding sequence mutation in FOXL2.

Abstract

Recent evidence suggests that animal microRNAs (miRNAs) can target coding sequences (CDSs); however, the pathophysiological importance of such targeting remains unknown. Here, we show that a somatic heterozygous missense mutation (c.402C>G; p.C134W) in FOXL2, a feature shared by virtually all adult‐type granulosa cell tumors (AGCTs), introduces a target site for miR‐1236, which causes haploinsufficiency of the tumor‐suppressor FOXL2. This miR‐1236‐mediated selective degradation of the variant FOXL2 mRNA is preferentially conducted by a distinct miRNA‐loaded RNA‐induced silencing complex (miRISC) directed by the Argonaute3 (AGO3) and DHX9 proteins. In both patients and a mouse model of AGCT, abundance of the inversely regulated variant FOXL2 with miR‐1236 levels is highly correlated with malignant features of AGCT. Our study provides a molecular basis for understanding the conserved FOXL2 CDS mutation‐mediated etiology of AGCT, revealing the existence of a previously unidentified mechanism of miRNA‐targeting disease‐associated mutations in the CDS by forming a non‐canonical miRISC.