Abstract
Biological activity of antisense oligonucleotides (asON), especially those with a neutral backbone, is often attenuated by poor cellular accumulation. In the present proof-of-concept study, we propose a novel delivery system for asONs which implies the delivery of modified antisense oligonucleotides by so-called transport oligonucleotides (tON), which are oligodeoxyribonucleotides complementary to asON conjugated with hydrophobic dodecyl moieties. Two types of tONs, bearing at the 5′-end up to three dodecyl residues attached through non-nucleotide inserts (TD series) or anchored directly to internucleotidic phosphate (TP series), were synthesized. tONs with three dodecyl residues efficiently delivered asON to cells without any signs of cytotoxicity and provided a transfection efficacy comparable to that achieved using Lipofectamine 2000. We found that, in the case of tON with three dodecyl residues, some tON/asON duplexes were excreted from the cells within extracellular vesicles at late stages of transfection. We confirmed the high efficacy of the novel and demonstrated that MDR1 mRNA targeted asON delivered by tON with three dodecyl residues significantly reduced the level of P-glycoprotein and increased the sensitivity of KB-8-5 human carcinoma cells to vinblastine. The obtained results demonstrate the efficacy of lipophilic oligonucleotide carriers and shows they are potentially capable of intracellular delivery of any kind of antisense oligonucleotides.
Highlights
Nucleic acid-based therapy is highly promising approach to treat a variety of diseases
In the present proof-of-concept study, we propose a novel simple and inexpensive approach for intracellular delivery of antisense oligonucleotides (asON), gene-directed oligonucleotides or oligonucleotides with any other function, based on the use of transport oligonucleotides. tONs are oligonucleotides complementary to the oligonucleotide to be delivered and conjugated with dodecyl residues
In order to evaluate whether delivery using tONs provides a manifestation of the biological experiments showed thatoligonucleotide, asON-MDR1 delivered into the acells in of theantisense duplex with tON-MDR1 activity of the delivered we synthesized series oligonucleotides exhibited MDR1 much lower as compared with Table asON-MDR1 by LFMDR1
Summary
Nucleic acid-based therapy is highly promising approach to treat a variety of diseases. TONs are oligonucleotides complementary to the oligonucleotide to be delivered (here and after, dON) and conjugated with dodecyl residues Such delivery systems allow the different functional modifications on two molecules to be split; dON can contain only modifications providing nuclease resistance, whereas transport oligonucleotide (tON) contains moieties promoting intracellular delivery. Molecules 2020, 25, x FOR PEER REVIEW tONs with two and three dodecyl residues efficiently delivered dONs, including those with a neutral sugar-phosphate backbone, to cells without beingmoieties cytotoxic.promoting. MRNA targeted delivered by tON with three dodecyl residues significantly reduced with a neutral sugar-phosphate backbone, to cells without being cytotoxic. Efficacy of the novel transport oligonucleotide-based delivery system using MDR1 mRNA as a target and demonstrated that MDR1 mRNA targeted asON delivered by tON with three dodecyl residues. Results significantly reduced the level of P-glycoprotein and increased the sensitivity of KB-8-5 human carcinoma cells to vinblastine
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