Context-Sensitive Cleavage of Folded DNAs by Loop-Targeting bPNAs.

Herein, we demonstrate context-dependent molecular recognition of DNA by synthetic bPNA iron and copper complexes, using oxidative backbone cleavage as a chemical readout for binding. Oligoethylenimine bPNAs displaying iron·EDTA or copper·phenanthroline sites were found to be efficient chemical nucleases for designed and native structured DNAs with T-rich single-stranded domains. Cleavage reactivity depends strongly on structural context, as strikingly demonstrated with DNA substrates of the form (GGGTTA).

Triplex Hybridization of siRNA with Bifacial Glycopolymer Nucleic Acid Enables Hepatocyte-Targeted Silencing.

Herein, we describe a versatile non-covalent strategy for packaging nucleic acid cargo with targeting modalities, based on triplex hybridization of oligo-uridylate RNA with bifacial polymer nucleic acid (bPNA). Polyacrylate bPNA was prepared and side chain-functionalized with N-acetylgalactosamine (GalNAc), which is known to enable delivery to hepatocytes and liver via binding to the asialoglycoprotein receptor (ASGPR). Polymer binding resulted in successful delivery of both native and synthetically modified siRNAs to HepG2 cells in culture, yielding in low nanomolar IC silencing of the endogenous ApoB target, in line with observations of expected Dicer processing of the polymer-siRNA targeting complex.

Duplex Stem Replacement with bPNA+ Triplex Hybrid Stems Enables Reporting on Tertiary Interactions of Internal RNA Domains.

We report herein the synthesis and DNA/RNA binding properties of bPNA+, a new variant of bifacial peptide nucleic acid (bPNA) that binds oligo T/U nucleic acids to form triplex hybrids. By virtue of a new bivalent side chain on bPNA+, similar DNA affinity and hybrid thermostability can be obtained with half the molecular footprint of previously reported bPNA. Lysine derivatives bearing two melamine bases (K) can be prepared on multigram scale by double reductive alkylation with melamine acetaldehyde, resulting in a tertiary amine side chain that affords both peptide solubility and selective base-triple formation with 4 T/U bases; the Fmoc-K derivative can be used directly in solid phase peptide synthesis, rendering bPNA+ conveniently accessible.

Small Molecule Recognition Triggers Secondary and Tertiary Interactions in DNA Folding and Hammerhead Ribozyme Catalysis.

We have identified tris(2-aminoethyl)amine (tren)-derived scaffolds with two (t2M) or four (t4M) melamine rings that can target oligo T/U domains in DNA/RNA. Unstructured T-rich DNAs cooperatively fold with the tren derivatives to form hairpin-like structures. Both t2M and t4M act as functional switches in a family of hammerhead ribozymes deactivated by stem or loop replacement with a U-rich sequence.