Ming Xin scite author profile

Attaining the full therapeutic utility of antisense and siRNA oligonucleotides will require understanding of the biological barriers that stand between initial administration of these drugs and their final actions within cells. This article examines some of the key barriers that affect the biodistribution of oligonucleotides both in molecular form and when they are associated with nanocarriers. An understanding of the biological processes underlying these barriers will aid in the design of more effective delivery systems.

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Cellular Uptake and Intracellular Trafficking of Antisense and siRNA Oligonucleotides

Juliano

2011

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Significant progress is being made concerning the development of oligonucleotides as therapeutic agents. Studies with antisense, siRNA, and other forms of oligonucleotides have shown promise in cellular and animal models and in some clinical studies. Nonetheless our understanding of how oligonucleotides function in cells and tissues is really quite limited. One major issue concerns the modes of uptake and intracellular trafficking of oligonucleotides, whether as ‘free’ molecules, or linked to various delivery moieties such as nanoparticles or targeting ligands. In this review we examine the recent literature on oligonucleotide internalization and subcellular trafficking in the context of current insights into the basic machinery for endocytosis and intracellular vesicular traffic.

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

et al. 2015

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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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Multivalent Cyclic RGD Conjugates for Targeted Delivery of Small Interfering RNA

et al. 2011

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We have designed, synthesized and tested conjugates of chemically modified luciferase siRNA (Luc-siRNA) with bi-, tri- and tetravalent cyclic(arginine-glycine-aspartic) peptides (cRGD) that selectively bind to the αvβ3 integrin. The cellular uptake, subcellular distribution and pharmacological effects of the cRGD conjugated Luc-siRNAs as compared to un-conjugated controls were examined using a luciferase reporter cassette stably transfected into αvβ3 positive M21+ human melanoma cells. The M21+ cells exhibited receptor-mediated uptake of cRGD-siRNA conjugates but not of unconjugated control siRNA. The fluorophore-tagged cRGD-siRNA conjugates were taken up by a caveolar endocytotic route and primarily accumulated in cytosolic vesicles. The bi-, tri- and tetravalent cRGD conjugates were taken up by M21+ cells to approximately the same degree. However, there were notable differences in their pharmacological effectiveness. The tri- and tetravalent versions produced progressive, dose-dependent reductions in luciferase expression, while the bivalent version had little effect. The basis for this divergence of uptake and effect is currently unclear. Nonetheless the high selectivity and substantial ‘knock down’ effects of the multivalent cRGD-siRNA conjugates suggest that this targeting and delivery strategy deserves further exploration.

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Intracellular delivery of an antisense oligonucleotide via endocytosis of a G protein-coupled receptor

Xin¹,

Alam²,

Fisher³

et al. 2010

104

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Gastrin-releasing peptide receptor (GRPR), a member of the G protein-coupled receptor superfamily, has been utilized for receptor-mediated targeting of imaging and therapeutic agents; here we extend its use to oligonucleotide delivery. A splice-shifting antisense oligonucleotide was conjugated to a bombesin (BBN) peptide, and its intracellular delivery was tested in GRPR expressing PC3 cells stably transfected with a luciferase gene interrupted by an abnormally spliced intron. The BBN-conjugate produced significantly higher luciferase expression compared to unmodified oligonucleotide, and this increase was reversed by excess BBN peptide. Kinetic studies revealed a combination of saturable, receptor-mediated endocytosis and non-saturable pinocytosis for uptake of the conjugate. The Km value for saturable uptake was similar to the EC50 value for the pharmacological response, indicating that receptor-mediated endocytosis was a primary contributor to the response. Use of pharmacological and molecular inhibitors of endocytosis showed that the conjugate utilized a clathrin-, actin- and dynamin-dependent pathway to enter PC3 cells. The BBN-conjugate partially localized in endomembrane vesicles that were associated with Rab7 or Rab9, demonstrating that it was transported to late endosomes and the trans-golgi network. These observations suggest that the BBN-oligonucleotide conjugate enters cells via a process of GRPR mediated endocytosis followed by trafficking to deep endomembrane compartments.

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Ming Xin

Biological Barriers to Therapy with Antisense and siRNA Oligonucleotides

Cellular Uptake and Intracellular Trafficking of Antisense and siRNA Oligonucleotides

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

Multivalent Cyclic RGD Conjugates for Targeted Delivery of Small Interfering RNA

Intracellular delivery of an antisense oligonucleotide via endocytosis of a G protein-coupled receptor

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