Brian Laing scite author profile

The therapeutic use of antisense and siRNA oligonucleotides has been constrained by the limited ability of these membrane-impermeable molecules to reach their intracellular sites of action. We sought to address this problem using small organic molecules to enhance the effects of oligonucleotides by modulating their intracellular trafficking and release from endosomes. A high-throughput screen of multiple small molecule libraries yielded several hits that markedly potentiated the actions of splice switching oligonucleotides in cell culture. These compounds also enhanced the effects of antisense and siRNA oligonucleotides. The hit compounds preferentially caused release of fluorescent oligonucleotides from late endosomes rather than other intracellular compartments. Studies in a transgenic mouse model indicated that these compounds could enhance the in vivo effects of a splice-switching oligonucleotide without causing significant toxicity. These observations suggest that selected small molecule enhancers may eventually be of value in oligonucleotide-based therapeutics.

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Cellular Uptake and Intracellular Trafficking of Oligonucleotides: Implications for Oligonucleotide Pharmacology

Juliano

Xin

Carver

et al. 2014

Nucleic Acid Therapeutics

105

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One of the major constraints on the therapeutic use of oligonucleotides is inefficient delivery to their sites of action in the cytosol or nucleus. Recently it has become evident that the pathways of cellular uptake and intracellular trafficking of oligonucleotides can strongly influence their pharmacological actions. Here we provide background information on the basic processes of endocytosis and trafficking and then review recent literature on targeted delivery and subcellular trafficking of oligonucleotides in that context. A variety of approaches including molecular scale ligand-oligonucleotide conjugates, ligand-targeted nanocarriers, and the use of small molecules to enhance oligonucleotide effects are discussed.

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Bioconjugates for targeted delivery of therapeutic oligonucleotides

Xin

Laing

2015

Advanced Drug Delivery Reviews

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Bioconjugates have been used to deliver therapeutic oligonucleotides to their pharmacological targets in diseased cells. Molecular-scale conjugates can be prepared by directly linking targeting ligands with oligonucleotides and the resultant conjugates can selectively bind to cell surface receptors in target cells in diseased tissues. Besides targeted delivery, additional functionality can be incorporated in the conjugates by utilization of carrier molecules, and these larger conjugates are called carrier-associated conjugates. Both molecular and carrier-associated conjugates have achieved initial successes in clinical trials for treating liver diseases; therefore, currently the greater challenge is to deliver oligonucleotides to extrahepatic tissues such as tumors. This review will provide an update on the application of oligonucleotide conjugates for targeted delivery during the last decade. By identifying key elements for successful delivery, it is suggested that oligonucleotide conjugates with intermediate size, cell targeting ability, and endosomal release functionality are superior systems to advance oligonucleotides to achieve their full therapeutic potentials.

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Synthesis and Evaluation of New Spacers for Use as dsDNA End-Caps

Laing

Balasundarum

et al. 2010

Bioconjugate Chem.

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A series of aliphatic and aromatic spacer molecules designed to cap the ends of DNA duplexes have been synthesized. The spacers were converted into dimethoxytrityl protected phosphoramidites as synthons for oligonucleotides synthesis. The effect of the spacers on the stability of short DNA duplexes was assessed by melting temperature studies. Endcaps containing amide groups were found to be less stabilizing than the hexaethylene glycol spacer. Endcaps containing either a terthiophene or a naphthalene tetracarboxylic acid dimide were found to be significantly more stabilizing. The former showed a preference for stacking above an A•T base pair. Spacers containing only methylene (-CH 2 -) and amide (-CONH-) groups interact weakly with DNA and consequently may be optimal for applications that require minimal influence on DNA structure but require a way to hold the ends of double-stranded DNA together.

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Brian Laing

Adsorbent Screening for Metal Impurity Removal in Pharmaceutical Process Research

High-throughput screening identifies small molecules that enhance the pharmacological effects of oligonucleotides

Cellular Uptake and Intracellular Trafficking of Oligonucleotides: Implications for Oligonucleotide Pharmacology

Bioconjugates for targeted delivery of therapeutic oligonucleotides

Synthesis and Evaluation of New Spacers for Use as dsDNA End-Caps

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