Abstract
Defects in miRNA biogenesis or activity are associated to development abnormalities and diseases. In Drosophila, miRNAs are predominantly loaded in Argonaute-1, which they guide for silencing of target RNAs. The miRNA pathway overlaps the RNAi pathway in this organism, as miRNAs may also associate with Argonaute-2, the mediator of RNAi. We set up a gene construct in which a single inducible promoter directs the expression of the GFP protein as well as two miRNAs perfectly matching the GFP sequences. We show that self-silencing of the resulting automiG gene requires Drosha, Pasha, Dicer-1, Dicer-2 and Argonaute-2 loaded with the anti-GFP miRNAs. In contrast, self-silencing of the automiG gene does not involve Argonaute-1. Thus, automiG reports in vivo for both miRNA biogenesis and Ago-2 mediated silencing, providing a powerful biosensor to identify situations where miRNA or siRNA pathways are impaired. As a proof of concept, we used automiG as a biosensor to screen a chemical library and identified 29 molecules that strongly inhibit miRNA silencing, out of which 5 also inhibit RNAi triggered by long double-stranded RNA. Finally, the automiG sensor is also self-silenced by the anti-GFP miRNAs in HeLa cells and might be easily used to identify factors involved in miRNA biogenesis and silencing guided by perfect target complementarity in mammals.
Highlights
Gene silencing by small interfering RNAs and microRNAs involves compartmentalized pathways in Drosophila
One strand of a small interfering RNAs (siRNAs) duplex guides Ago-2 for the cleavage of RNA targets with extensive siRNA sequence complementarity, a process referred to as RNA interference (RNAi) [5]. siRNAs produced from viral RNA genomes have an essential role in antiviral defense, which is well illustrated by the dramatic sensibility of Drosophila dcr2 or ago2 mutants to viral infections [6,7,8]
The change in the relative abundance of miG-1 and miG-2, as compared to the relative abundance of miR5 and miR-6 (Fig. 1C) prompted us to analyze in further detail whether reprograming of the automiG construct affected the biogenesis of the artificial miRNAs
Summary
Gene silencing by small interfering RNAs (siRNAs) and microRNAs (miRNAs) involves compartmentalized pathways in Drosophila. In addition miRNAs* strands, far considered as by-products of miRNA biogenesis, tend to accumulate in association with Ago2 [22,23,24] These results uncovered a new level of complexity in the miRNA-silencing pathway as well as partial overlap with the siRNA-silencing pathway. We reasoned that a single-component reporter system with a high dynamic range of response could circumvent these limitations To this aim, we generated a single gene construct that simultaneously expresses the GFP as well as 2 artificial miRNAs perfectly matched to 2 distinct sites in the GFP coding sequence for maximizing GFP silencing. We showed that the automiG sensor might be used to identify factors involved in miRNA biogenesis or activity in human cells
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