Litcius/Paper detail

The stem cell–specific protein TRIM71 inhibits maturation and activity of the prodifferentiation miRNA let-7 via two independent molecular mechanisms

Lucia Torres Fernández, Sibylle Mitschka, Thomas Ulas, Stefan Weise, K. Dahm, Matthias Becker, Kristian Händler, Marc Beyer, Julia Windhausen, Joachim L. Schultze, Waldemar Kolanus

2021RNA24 citationsDOIOpen Access PDF

Abstract

The stem cell-specific RNA-binding protein TRIM71/LIN-41 was the first identified target of the prodifferentiation and tumor suppressor miRNA let-7. TRIM71 has essential functions in embryonic development and a proposed oncogenic role in several cancer types, such as hepatocellular carcinoma. Here, we show that TRIM71 regulates let-7 expression and activity via two independent mechanisms. On the one hand, TRIM71 enhances pre-let-7 degradation through its direct interaction with LIN28 and TUT4, thereby inhibiting let-7 maturation and indirectly promoting the stabilization of let-7 targets. On the other hand, TRIM71 represses the activity of mature let-7 via its RNA-dependent interaction with the RNA-induced silencing complex (RISC) effector protein AGO2. We found that TRIM71 directly binds and stabilizes let-7 targets, suggesting that let-7 activity inhibition occurs on active RISCs. MiRNA enrichment analysis of several transcriptomic data sets from mouse embryonic stem cells and human hepatocellular carcinoma cells suggests that these let-7 regulatory mechanisms shape transcriptomic changes during developmental and oncogenic processes. Altogether, our work reveals a novel role for TRIM71 as a miRNA repressor and sheds light on a dual mechanism of let-7 regulation, uncovering a bistable switch between TRIM71 and let-7 miRNAs that regulates the balance between proliferation and differentiation.

Topics & Concepts

BiologymicroRNACell biologyRepressorEffectorEmbryonic stem cellTranscriptomeStem cellLIN28Gene silencingRNAGeneticsTranscription factorGene expressionGeneInduced pluripotent stem cellMicroRNA in disease regulationRNA Research and SplicingCancer-related molecular mechanisms research