Locked nucleic acid (beta-D-LNA) monomers are conformationally restricted nucleotides bearing a methylene 2'-O, 4'-C linkage that have an unprecedented high affinity for matching DNA or RNA. In this study, we compared the in vitro and in vivo properties of four different LNAs, beta-D-amino LNA (amino-LNA), beta-D-thio LNA (thio-LNA), beta-D-LNA (LNA), and its stereoisomer alpha-L-LNA in an antisense oligonucleotide (ODN). A well-known antisense ODN design against H-Ras was modified at the 5'- and 3'-ends with the different LNA analogues (LNA-DNA-LNA gapmer design). The resulting gapmers were tested in cancer-cell cultures and in a nude-mouse model bearing prostate tumor xenografts. The efficacy in target knockdown, the biodistribution, and the ability to inhibit tumor growth were measured. All anti H-Ras ODNs were very efficient in H-Ras mRNA knockdown in vitro, reaching maximum effect at concentrations below 5 nM. Moreover, the anti-H-Ras ODN containing alpha-L-LNA had clearly the highest efficacy in H-Ras knockdown. All LNA types displayed a great stability in serum. ODNs containing amino-LNA showed an increased uptake by heart, liver, and lungs as compared to the other LNA types. Both alpha-L-LNA and LNA gapmer ODNs had a high efficacy of tumor-growth inhibition and were nontoxic at the tested dosages. Remarkably, in vivo tumor-growth inhibition could be observed at dosages as low as 0.5 mg kg(-1) per day. These results indicate that alpha-L-LNA is a very promising member of the family of LNA analogues in antisense applications.
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.
The structure of parallel-stranded duplexes of DNA-containing a mixture of guanines (G) and adenines (A) is studied by means of molecular dynamics (MD) simulation, as well as NMR and circular dichroism (CD) spectroscopy. Results demonstrate that the structure is based on the Hoogsteen motif rather than on the reverse Watson-Crick one. Molecular dynamics coupled to thermodynamic integration (MD/TI) calculations and melting experiments allowed us to determine the effect of 8-amino derivatives of A and G and of 8-amino-2'-deoxyinosine on the stability of parallel-stranded duplexes. The large stabilization of the parallel-stranded helix upon 8-amino substitution agrees with a Hoogsteen pairing, confirming MD, NMR, and CD data, and suggests new methods to obtain DNA triplexes for antigene and antisense purposes.
SummaryPreparation of LNA nucleosides requires a number of synthetic steps but very efficient procedures have been developed, as have protocols for synthesis of LNA oligonucleotides on automated DNA synthesizers. In all cases, LNA oligonucleotides have exhibited good aqueous solubility as would be expected from their close structural resemblance to the natural nucleic acids. The universality of LNA mediated high-affinity and specific hybridization has been demonstrated extensively with a large number of duplex forming LNA-oligonucleotides. Most importantly, most of the members of the LNA molecular family have been shown to exert their substantial affinity increase (i) in combination with standard DNA, RNA and contemporary analogues and (ii) whether inserted as single nucleosides in an oligonucleotide or as blocks of contiguous nucleotides, an important point. The works on TFO's is expanding the usefulness of LNA to double strand recognition and it has been demonstrated that LNA it is a promising structure for further base modifications in the pursuit of global sequence specific recognition of DNA.
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