Application of 4'--α-aminoethoxy-2'--methyl-5-propynyl-uridine for antisense therapeutics.

Owing to the increased public interest and advances in chemical modifications, the approval of antisense therapeutics, a class of mRNA-targeting DNA-based oligonucleotide therapeutics, has accelerated in recent years. It was previously reported that siRNAs with several 4'--α-aminoethoxy-2'--methyl-uridine (4AEoU) analogs could maintain moderate thermal stability similar to the native ones while showing robust nuclease stability. In this study, we further expanded the application of 4AEo modification to antisense therapeutics and achieved superior thermal stability by adding the uracil 5-propynyl modification.

Synthesis and characterization of novel (S)-5'-C-aminopropyl-2'-fluorouridine modified oligonucleotides as therapeutic siRNAs.

The lack of stability of natural nucleosides limits their application in small interfering RNA (siRNA)-mediated RNA interference (RNAi). Various chemical modifications have been reported to improve their pharmacokinetic behavior; however, the development of potential candidates is still underway. In this study, we designed and synthesized (S)-5'-C-aminopropyl-2'-fluorouridine (5'-AP-2'-FU) and evaluated the properties of siRNAs containing this analog.