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Merck

Albumin-Binding Aptamer Chimeras for Improved siRNA Bioavailability.

Cellular and molecular bioengineering (2022-04-12)
Jonah C Rosch, Ella N Hoogenboezem, Alexander G Sorets, Craig L Duvall, Ethan S Lippmann
摘要

Short interfering RNAs (siRNAs) are potent nucleic acid-based drugs designed to target disease driving genes that may otherwise be undruggable with small molecules. However, therapeutic potential of siRNA in vivo is limited by poor pharmacokinetic properties, including rapid renal clearance and nuclease degradation. Backpacking on natural carriers such as albumin, which is present at high concentration and has a long half-life in serum, is an effective way to modify pharmacokinetics of biologic drugs that otherwise have poor bioavailability. In this work, we sought to develop albumin-binding aptamer-siRNA chimeras to improve the bioavailability of siRNA. A Systematic Evolution of Ligands through Exponential Enrichment (SELEX) approach was used to obtain modified RNA-binding aptamers, which were then fused directly to siRNA via in vitro transcription. Molecular and pharmacokinetic properties of the aptamer-siRNA chimeras were subsequently measured in vitro and in vivo. In vitro assays show that albumin-binding aptamers are stable in serum while maintaining potent gene knockdown capabilities in the chimera format. In vivo, the absolute circulation half-life of the best-performing aptamer-siRNA chimera (Clone 1) was 1.6-fold higher than a scrambled aptamer chimera control. Aptamer-siRNA chimeras exhibit improved bioavailability without compromising biological activity. Hence, this albumin-binding aptamer-siRNA chimera approach may be a promising strategy for drug delivery applications. The online version contains supplementary material available at 10.1007/s12195-022-00718-y.

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Sigma-Aldrich
白蛋白 来源于人类血清, lyophilized powder, ≥96% (agarose gel electrophoresis)
Sigma-Aldrich
白蛋白 人, recombinant, expressed in Pichia pastoris, 5% in aqueous buffer, ≥90% (SDS-PAGE)
Sigma-Aldrich
白蛋白 来源于小鼠血清, lyophilized powder, ≥96% (agarose gel electrophoresis)