Abstract
Nucleic Acid Therapeutics (NATs), including siRNAs and AntiSense Oligonucleotides (ASOs), have great potential to drug the undruggable genome. Targeting siRNAs and ASOs to specific cell types of interest has driven dramatic improvement in efficacy and reduction in toxicity. Indeed, conjugation of tris-GalNAc to siRNAs and ASOs has shown clinical efficacy in targeting diseases driven by liver hepatocytes. However, targeting non-hepatic diseases with oligonucleotide therapeutics has remained problematic for several reasons, including targeting specific cell types and endosomal escape. Monoclonal antibody (mAb) targeting of siRNAs and ASOs has the potential to deliver these drugs to a variety of specific cell and tissue types. However, most conjugation strategies rely on random chemical conjugation through lysine or cysteine residues resulting in conjugate heterogeneity and a distribution of Drug:Antibody Ratios (DAR). To produce homogeneous DAR-2 conjugates with two siRNAs per mAb, we developed a novel two-step conjugation procedure involving microbial transglutaminase (MTGase) tagging of the antibody C-terminus with an azide-functionalized linker peptide that can be subsequently conjugated to dibenzylcyclooctyne (DBCO) bearing oligonucleotides through azide-alkyne cycloaddition. Antibody-siRNA (and ASO) conjugates (ARCs) produced using this strategy are soluble, chemically defined targeted oligonucleotide therapeutics that have the potential to greatly increase the number of targetable cell types.
Highlights
Nucleic Acid Therapeutics (NATs), including siRNAs and AntiSense Oligonucleotides (ASOs), are a powerful class of therapeutics that have the potential to treat diseases that are refractory or undruggable by small molecule therapeutics and monoclonal antibody therapeutics
To test microbial transglutaminase (MTGase) conjugation of Monoclonal antibody (mAb), we first engineered the cDNA of an anti-CD33 IgG4 clinical mAb [7] to contain the MTGase conjugation tag
Suspension ExpiCHO-S cells were transfected with expression plasmids containing heavy chain and light chain cDNAs, incubated overnight at 37 ◦ C, placed at 32 ◦ C for 10-14 days for mAb production [22]
Summary
Nucleic Acid Therapeutics (NATs), including siRNAs and AntiSense Oligonucleotides (ASOs), are a powerful class of therapeutics that have the potential to treat diseases that are refractory or undruggable by small molecule therapeutics and monoclonal antibody (mAb) therapeutics. Due to their chemical composition of a highly charged phosphate backbone and macromolecular weight of ~6000 to ~14,000 Daltons (Da), delivery of NATs remains problematic [1]. One strategy to address these problems is to protect and deliver siRNAs via formulation within lipid nanoparticles (LNPs) [2]. Oligonucleotides bearing tris-GalNAc moieties that target the asialoglycoprotein
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