Probing the influence of stereoelectronic effects on the biophysical properties of oligonucleotides: comprehensive analysis of the RNA affinity, nuclease resistance, and crystal structure of ten 2'-O-ribonucleic acid modifications.

The syntheses of 10 new RNA 2'-O-modifications, their incorporation into oligonucleotides, and an evaluation of their properties such as RNA affinity and nuclease resistance relevant to antisense activity are presented. All modifications combined with the natural phosphate backbone lead to significant gains in terms of the stability of hybridization to RNA relative to the first-generation DNA phosphorothioates (PS-DNA). The nuclease resistance afforded in particular by the 2'-O-modifications carrying a positive charge surpasses that of PS-DNA.

Towards a therapeutic inhibition of dystrophin exon 23 splicing in mdx mouse muscle induced by antisense oligoribonucleotides (splicomers): target sequence optimisation using oligonucleotide arrays.

Background: The activity of synthetic antisense oligonucleotides (splicomers) designed to block pre-mRNA splicing at specific exons has been demonstrated in a number of model systems, including constitutively spliced exons in mouse dystrophin RNA. Splicomer reagents directed to Duchenne muscular dystrophy (DMD) RNAs might thus circumvent nonsense or frame-shifting mutations, leading to therapeutic expression of partially functional dystrophin, as occurs in the milder, allelic (Becker) form of the disease (BMD).

Methods: Functional and hybridisation array screens have been used to select optimised splicomers directed to exon 23 of dystrophin mRNA which carries a nonsense mutation in the mdx mouse.

Tuning of conformational preorganization in model 2',5'- and 3',5'-linked oligonucleotides by 3'- and 2'-O-methoxyethyl modification.

Conformational properties of trimeric and tetrameric 2',5'-linked oligonucleotides, 3'-MOE-A3(2',5') (1) and 3'-MOE-A4(2',5') (2), and their 3',5'-linked analogs, 2'-MOE-A3(3',5') (3) and 2'-MOE-A4(3',5') (4), were examined with the use of heteronuclear NMR spectroscopy. The temperature-dependent 3JHH, 3JHP and 3JCP coupling constants, acquired in the range of 273-343 K, gave insight into the conformation of sugar rings in terms of a two-state North <---> South (N <---> S) pseudorotational equilibrium and into the conformation of the sugar-phosphate backbone in the model antisense oligonucleotides 1-4. 2',5'-linked oligomers 3'-MOE-A3(2',5') (1) and 3'-MOE-A4(2',5') (2) show preference for N-type conformers and indication of A-type conformational features, which is prerequisite for antisense hybridization.