Abstract
Oligonucleotide therapeutics use short interfering RNA (siRNA) or antisense oligonucleotide (ASO) molecules to exploit endogenous systems—neutralizing target RNA to prevent subsequent protein translation. While the potential clinical application is vast, delivery efficiency and extrahepatic targeting is challenging. Bioanalytical assays are important in building understanding of these complex relationships. The literature currently lacks description of robust and sensitive methods to measure siRNA and ASOs in complex biological matrices. Described herein is a non-enzymatic hybridization-based immunoassay that enables quantification of individual siRNA strands (antisense or sense) in serum, urine, bile, and liver and kidney homogenates. Assay utility is also demonstrated in ASOs. The assay improves upon previous works by abolishing enzymatic steps and further incorporating Locked Nucleic Acid (LNA) nucleotide modifications to increase analyte hybridization affinity and improve sensitivity, specificity, and robustness. We report an assay with an ultrasensitive dynamic range of 0.3 to 16,700 pM for siRNA in serum. The assay was submitted to full qualification for accuracy and precision in both serum and tissue matrices and assay performance was assessed with single and mixed analytes. The reliable LNA-hybridization-based approach removes the need for matrix sample extraction, enrichment or amplification steps which may be impeded by more advanced chemical modifications.
Highlights
Oligonucleotide therapeutics use short interfering RNA or antisense oligonucleotide (ASO) molecules to exploit endogenous systems—neutralizing target RNA to prevent subsequent protein translation
In this manuscript we describe the quantitation of two such drug classes: small interfering ribonucleic acids and antisense oligonucleotides (ASOs)
We focus on oligonucleotides conjugated directly to a triantennary N-acetylgalactosamine (GalNAc) ligand, which facilitates delivery to the liver via the hepatocyte-expressing asialoglycoprotein receptor (ASGPR)[16]
Summary
Oligonucleotide therapeutics use short interfering RNA (siRNA) or antisense oligonucleotide (ASO) molecules to exploit endogenous systems—neutralizing target RNA to prevent subsequent protein translation. Capitalizing on targeting cellular pathways that are not readily druggable via a “programmable” RNA sequence-based mechanism-of-action, several nucleic acid therapies have been approved in the clinic[2,3]. In this manuscript we describe the quantitation of two such drug classes: small interfering ribonucleic acids (siRNA) and antisense oligonucleotides (ASOs). Seeking to eliminate the enzymatic steps, shorten assay runtimes, and further improve sensitivity, we made modifications to our previously published method.Described we demonstrate the utility of the Plate-Based Oligo Electrochemiluminescent (POE) immunoassay for quantifying the antisense and sense strands of the siRNA duplex both sensitively and across various biological matrices. We show that the assay is applicable to a variety of preclinical species and multiple matrices
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