Abstract

Replacement of a non-bridging oxygen atom of the phosphate diester linkage of an oligonucleotide by sulfur conveys pharmacokinetic benefits, such as increased nuclease resistance and enhanced protein binding. Substitution renders the internucleotide linkages chiral, and so phosphorothioate diester (PS) oligonucleotides comprise complex mixtures of diastereoisomers. Currently, chromatographic separation of individual diastereoisomers is limited to oligonucleotides that contain no more than about four or five PS linkages. The development of therapeutic PS oligonucleotides, which often contain >15 PS linkages, would be greatly aided by methods useful for assessing batch-to-batch stereo-reproducibility. To this effect, the relative sensitivities of metal ion complexation chromatography (MICC), in-series reversed phase-strong anion exchange chromatography (RP-SAX), and 31P NMR toward changes in the diastereoisomeric distributions of therapeutic PS oligonucleotides were compared. Model oligonucleotides synthesized under conditions known to impact PS stereochemistry were used to evaluate the method performance, and all three methods showed excellent sensitivity toward changes in the diastereoisomeric composition. Interactions via the solvent-accessible areas and a combination of hydrophobic and electrostatic forces may be responsible for the selectivity demonstrated by MICC and in-series RP-SAX, respectively.

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