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Enhancing antisense efficacy with multimers and multi-targeting oligonucleotides (MTOs) using cleavable linkers.

Nucleic acids research (2015-10-09)
Romesh R Subramanian, Mark A Wysk, Kathleen M Ogilvie, Abhijit Bhat, Bing Kuang, Thomas D Rockel, Markus Weber, Eugen Uhlmann, Arthur M Krieg
RÉSUMÉ

The in vivo potency of antisense oligonucleotides (ASO) has been significantly increased by reducing their length to 8-15 nucleotides and by the incorporation of high affinity RNA binders such as 2', 4'-bridged nucleic acids (also known as locked nucleic acid or LNA, and 2',4'-constrained ethyl [cET]). We now report the development of a novel ASO design in which such short ASO monomers to one or more targets are co-synthesized as homo- or heterodimers or multimers via phosphodiester linkers that are stable in plasma, but cleaved inside cells, releasing the active ASO monomers. Compared to current ASOs, these multimers and multi-targeting oligonucleotides (MTOs) provide increased plasma protein binding and biodistribution to liver, and increased in vivo efficacy against single or multiple targets with a single construct. In vivo, MTOs synthesized in both RNase H-activating and steric-blocking oligonucleotide designs provide ≈4-5-fold increased potency and ≈2-fold increased efficacy, suggesting broad therapeutic applications.

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Stop Reagent for TMB Substrate, powder, ELISA, 450 nm