Expanding the design horizon of antisense oligonucleotides with alpha-L-LNA |
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Authors: | Frieden Miriam Christensen Signe M Mikkelsen Nikolaj D Rosenbohm Christoph Thrue Charlotte A Westergaard Majken Hansen Henrik F Ørum Henrik Koch Troels |
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Institution: | Santaris Pharma A/S, B?ge Allé 3, DK-2970 H?rsholm, Denmark. |
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Abstract: | Oligonucleotides containing Locked Nucleic Acids (LNA) to various extents and at various positions were evaluated for antisense activity, RNase H recruitment, nuclease stability and thermal affinity. In this work, two different diastereoisomers of LNA were studied: the beta-D-LNA and the alpha-L-LNA (abbreviated as beta-D-LNA and alpha-L-LNA). Our findings show that the best antisense activity with 16mer gapmers containing beta-D-LNA (oligonucleotides containing consecutive segments of LNA and DNA with a central DNA stretch flanked by two LNA segments, LNA-DNA-LNA) is found with gap sizes between 7 and 10 nt. The optimal gap size is motif-dependent, and requires the right balance between gap size and affinity. Compared to beta-D-LNA, alpha-L-LNA shows superior stability against a 3'-exonuclease. The design possibilities of alpha-L-LNA were explored for different gapmers and other designs, collectively called chimeras. The placement of alpha-L-LNA in the junctions or in the flanks resulted in potent antisense oligonucleotides. Moreover, different chimeras with an alternate composition of DNA, alpha-L-LNA and beta-D-LNA were evaluated in terms of antisense activity and RNase H recruitment. Chimeras with an interrupted DNA stretch with alpha-L-LNA still recruit RNase H and show good levels of antisense activity, while the same design with beta-D-LNA results in a drop in antisense potency. Our findings indicate that alpha-L-LNA is a powerful and versatile nucleotide analogue for designing potent antisense oligonucleotides. |
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