Digoxigenin-Labeled Phosphorothioate Oligonucleotides: A New Tool for the Study of Cellular Uptake

The mechanisms and intracellular pathways by which many oligonucleotide analogs enter cells to exert the desired antisense effects are not fully understood and remain a matter of debate. In this study, we describe the synthesis of 5′-digoxigenin-labeled phosphorothioate oligonucleotides and show their use to examine intracellular oligonucleotide distribution within Epstein-Harr virus-transformed B cells. Comparison of digoxigeninlabeled and fluorescein-labeled oligonucleotide distribution shows the same intracellular fate, suggesting that digoxigenin modification does not interfere with intracellular routing. Double immunofluorescence studied by conventional fluorescence and confocal microscopy with antibodies to the labeling molecule and to lysosomeassociated membrane protein indicate that oligonucleotides mainly accumulate in the lysosomal compartment. Digoxigenin labeling offers an alternative to study oligonucleotide uptake and distribution by immunoelectron microscopy. Two different approaches have been studied: immunogold labeling in heavily fixed and resin-embedded cells and immunogold labeling in lightly fixed and cryoultramicrotomy processed cells. The results confirm the major lysosomal accumulation of digoxigenin-labeled oligonucleotides and demonstrate that the antigenic capacity of digoxigenin is not damaged by any of the procedures used. Therefore, the conjugation of the functionalized digoxigenin molecule at the 5′ end of phosphorothioate oligonucleotides provides a new tool in the study of oligonucleotide uptake and intracellular distribution at both cellular and ultrastructural levels.