Potent and nontoxic antisense oligonucleotides containing locked nucleic acids

C Wahlestedt, P Salmi, L Good, J Kela… - Proceedings of the …, 2000 - National Acad Sciences
C Wahlestedt, P Salmi, L Good, J Kela, T Johnsson, T Hökfelt, C Broberger, F Porreca, J Lai…
Proceedings of the National Academy of Sciences, 2000National Acad Sciences
Insufficient efficacy and/or specificity of antisense oligonucleotides limit their in vivo
usefulness. We demonstrate here that a high-affinity DNA analog, locked nucleic acid (LNA),
confers several desired properties to antisense agents. Unlike DNA, LNA/DNA copolymers
were not degraded readily in blood serum and cell extracts. However, like DNA, the
LNA/DNA copolymers were capable of activating RNase H, an important antisense
mechanism of action. In contrast to phosphorothioate-containing oligonucleotides …
Insufficient efficacy and/or specificity of antisense oligonucleotides limit their in vivo usefulness. We demonstrate here that a high-affinity DNA analog, locked nucleic acid (LNA), confers several desired properties to antisense agents. Unlike DNA, LNA/DNA copolymers were not degraded readily in blood serum and cell extracts. However, like DNA, the LNA/DNA copolymers were capable of activating RNase H, an important antisense mechanism of action. In contrast to phosphorothioate-containing oligonucleotides, isosequential LNA analogs did not cause detectable toxic reactions in rat brain. LNA/DNA copolymers exhibited potent antisense activity on assay systems as disparate as a G-protein-coupled receptor in living rat brain and an Escherichia coli reporter gene. LNA-containing oligonucleotides will likely be useful for many antisense applications.
National Acad Sciences
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