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Chemical strategies for strand selection in short-interfering RNAs

Andrew Varley, Jean‐Paul Desaulniers

2021RSC Advances25 citationsDOIOpen Access PDF

Abstract

Therapeutic small interfering RNAs (siRNAs) are double stranded RNAs capable of potent and specific gene silencing through activation of the RNA interference (RNAi) pathway. The potential of siRNA drugs has recently been highlighted by the approval of multiple siRNA therapeutics. These successes relied heavily on chemically modified nucleic acids and their impact on stability, delivery, potency, and off-target effects. Despite remarkable progress, clinical trials still face failure due to off-target effects such as off-target gene dysregulation. Each siRNA strand can downregulate numerous gene targets while also contributing towards saturation of the RNAi machinery, leading to the upregulation of miRNA-repressed genes. Eliminating sense strand uptake effectively reduces off-target gene silencing and helps limit the disruption to endogenous regulatory mechanisms. Therefore, our understanding of strand selection has a direct impact on the success of future siRNA therapeutics. In this review, the approaches used to improve strand uptake are discussed and effective methods are summarized.

Topics & Concepts

Selection (genetic algorithm)Computational biologySmall interfering RNAChemistryComputer scienceBiologyRNAArtificial intelligenceBiochemistryGeneRNA Interference and Gene DeliveryRNA and protein synthesis mechanismsBacteriophages and microbial interactions
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