Dynamic Combinatorial Selection of Molecules Capable of Inhibiting the (CUG) Repeat RNA−MBNL1 Interaction In Vitro: Discovery of Lead Compounds Targeting Myotonic Dystrophy (DM1)

Peter C. Gareiss; Krzysztof Sobczak; Brian R. McNaughton; Prakash B. Palde; Charles A. Thornton; Benjamin L. Miller

doi:10.1021/ja804398y

Dynamic Combinatorial Selection of Molecules Capable of Inhibiting the (CUG) Repeat RNA−MBNL1 Interaction In Vitro: Discovery of Lead Compounds Targeting Myotonic Dystrophy (DM1)

Peter C. Gareiss(University of Rochester), Krzysztof Sobczak(University of Rochester), Brian R. McNaughton(University of Rochester), Prakash B. Palde(University of Rochester), Charles A. Thornton(University of Rochester), Benjamin L. Miller(University of Rochester)

Journal of the American Chemical Society

November 8, 2008

10.1021/ja804398y

Cited by 187

Abstract

Myotonic dystrophy type 1 (DM1), the most common form of muscular dystrophy in adults, is an RNA-mediated disease. Dramatically expanded (CUG) repeats accumulate in nuclei and sequester RNA-binding proteins such as the splicing regulator MBNL1. We have employed resin-bound dynamic combinatorial chemistry (RBDCC) to identify the first examples of compounds able to inhibit MBNL1 binding to (CUG) repeat RNA. Screening an RBDCL with a theoretical diversity of 11 325 members yielded several molecules with significant selectivity for binding to (CUG) repeat RNA over other sequences. These compounds were also able to inhibit the interaction of GGG-(CUG)(109)-GGG RNA with MBNL1 in vitro, with K(i) values in the low micromolar range.

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