Abstract
RNA is an important target for chemical probes of function and lead therapeutics; however, it is difficult to target with small molecules. One approach to tackle this problem is to identify compounds that target RNA structures and utilize them to multivalently target RNA. Here we show that small molecules can be identified to selectively bind RNA base pairs by probing a library of RNA-focused small molecules. A small molecule that selectively binds AU base pairs informed design of a dimeric compound (2AU-2) that targets the pathogenic RNA, expanded r(AUUCU) repeats, that causes spinocerebellar ataxia type 10 (SCA10) in patient-derived cells. Indeed, 2AU-2 (50 nM) ameliorates various aspects of SCA10 pathology including improvement of mitochondrial dysfunction, reduced activation of caspase 3, and reduction of nuclear foci. These studies provide a first-in-class chemical probe to study SCA10 RNA toxicity and potentially define broadly applicable compounds targeting RNA AU base pairs in cells.
Highlights
RNA is an important target for chemical probes of function and lead therapeutics; it is difficult to target with small molecules
Expanded RNA repeats can contribute to disease and can be present in 50 and 30 untranslated regions (UTRs; fragile X-associated tremor ataxia syndrome (FXTAS)[8] and myotonic dystrophy type 1 (DM1)9), introns (spinocerebellar ataxia type 10 (SCA10)[10] and myotonic dystrophy type 2 (DM2)11) or coding regions (Huntington’s disease (HD)12)
To further confirm the results of the filtre binding assays, we developed an assay that evaluates the potency of small molecules for inhibiting protein loading onto r(AUUCU)[11]
Summary
Binding of RNA-focused small molecules to RNA base pairs. By using chemical similarity searching, small molecules with features that should pre-dispose them for binding RNA23,24 were collected from both the National Cancer Institute’s and The Scripps Research Institute’s chemical libraries, including benzimidazole, benzamidine, aniline moieties. Compounds were further restrained to be fluorescent to allow for easy screening of binding events, affording 104 small molecules
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