High-affinity RNA ligands to human alpha-thrombin.

Systematic Evolution of Ligands by EXponential enrichment (SELEX) was used to isolate from a population of 10(13) RNA molecules two classes of high affinity RNAs that bind specifically to human alpha-thrombin. Class I RNAs are represented by a 24-nucleotide RNA (RNA 16.24), and class II RNAs are represented by a 33-nucleotide RNA (RNA 27.33). RNA 16.24 inhibits thrombin-catalyzed fibrin clot formation in vitro. Secondary structures are proposed for these RNAs, revealing a novel stem-loop structure for RNA 16.24, comprised of an unusually large 16-nucleotide loop. Mutants of RNA 16.24 were generated to investigate structural features critical to high-affinity binding. Phosphate modification with ethylnitrosourea identified regions of the RNAs necessary for electrostatic interactions. Competition with heparin suggests that these RNAs bind the electropositive heparin-binding site of thrombin. These ligands represent a novel class of thrombin inhibitors that may be suitable for therapeutic or diagnostic applications.