RNA pull-down-Confocal Nanoscanning (RP-CONA) detects quercetin as pri-miR-7/HuR interaction inhibitor that decreases α-Synuclein levels

RNA-protein interactions are central to all gene expression processes and contribute to variety of human diseases. Therapeutic approaches targeting RNA-protein interactions have shown promising effects on some diseases that are previously regarded as ′incurable′. Here we developed a fluorescent on-bead screening platform: RNA pull-down-Confocal Nanoscanning (RP-CONA), to identify RNA-protein interaction modulators in eukaryotic cell extracts. Using RP-CONA, we identified small molecules that disrupt the interaction between HuR, an inhibitor of brain-enriched miR-7 biogenesis, and the conserved terminal loop of pri-miR-7-1. Importantly, miR-7′s primary target is an mRNA of α-Synuclein, which contributes to aetiology of Parkinson′s disease. Our method identified a natural product quercetin as a molecule able to upregulate cellular miR-7 levels and downregulate the expression of α-Synuclein. This opens up new therapeutic avenues towards treatment of Parkinson′s disease as well as provides novel methodology to search for RNA-protein interaction modulators.