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Backbone Hydrocarbon-Constrained Nucleic Acids Modulate Hybridization Kinetics for RNA.


ABSTRACT: The binding affinity of therapeutic oligonucleotides (ONs) for their cognate RNA is determined by the rates of association (ka) and dissociation (kd). Single-stranded ONs are highly flexible and can adopt multiple conformations in solution, some of which may not be conducive for hybridization. We investigated if restricting rotation around the sugar-phosphate backbone, by tethering two adjacent backbone phosphonate esters using hydrocarbon bridges, can modulate hybridization kinetics of the modified ONs for complementary RNA. Given the large number of possible analogues with different tether lengths and configurations at the phosphorus atoms, we employed molecular dynamic simulations to optimize the size of the hydrocarbon bridge to guide the synthetic efforts. The backbone-constrained nucleotide trimers with stereodefined configurations at the contiguous backbone phosphorus atoms were assembled using a ring-closing metathesis reaction, then incorporated into oligonucleotides by an in situ synthesis of the phosphoramidites followed by coupling to solid supports. Evaluation of the modified oligonucleotides revealed that 15-membered macrocyclic-constrained analogues displayed similar or slightly improved on-rates but significantly increased off-rates compared to unmodified DNA ONs, resulting in reduced duplex stability. In contrast, LNA ONs with conformationally preorganized furanose rings showed similar on-rates to DNA ONs but very slow off-rates, resulting in net improvement in duplex stability. Furthermore, the experimental data generally supported the molecular dynamics simulation results, suggesting that this strategy can be used as a predictive tool for designing the next generation of constrained backbone ON analogues with improved hybridization properties.

SUBMITTER: Rajasekaran T 

PROVIDER: S-EPMC9527079 | biostudies-literature | 2022 Feb

REPOSITORIES: biostudies-literature

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Backbone Hydrocarbon-Constrained Nucleic Acids Modulate Hybridization Kinetics for RNA.

Rajasekaran Tamilselvan T   Freestone Graeme C GC   Galindo-Murillo Rodrigo R   Lugato Barbara B   Rico Lorena L   Salinas Juan C JC   Gaus Hans H   Migawa Michael T MT   Swayze Eric E EE   Cheatham Thomas E TE   Hanessian Stephen S   Seth Punit P PP  

Journal of the American Chemical Society 20220118 4


The binding affinity of therapeutic oligonucleotides (ONs) for their cognate RNA is determined by the rates of association (<i>k</i><sub>a</sub>) and dissociation (<i>k</i><sub>d</sub>). Single-stranded ONs are highly flexible and can adopt multiple conformations in solution, some of which may not be conducive for hybridization. We investigated if restricting rotation around the sugar-phosphate backbone, by tethering two adjacent backbone phosphonate esters using hydrocarbon bridges, can modulat  ...[more]

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