Preclinical testing of antiviral siRNA therapeutics delivered in lipid nanoparticles in animal models - a comprehensive review.

The advent of RNA interference (RNAi) technology through the use of short-interfering RNAs (siRNAs) represents a paradigm shift in the fight against viral infections. siRNAs, with their ability to directly target and silence specific posttranscriptional genes, offer a novel mechanism of action distinct from that of traditional pharmacotherapeutics. This review delves into the growing field of siRNA therapeutics against viral infections, highlighting their critical role in contemporary antiviral strategies. Importantly, this review will solely focus on the use of lipid nanoparticles (LNPs) as the ideal antiviral siRNA delivery agent for use in vivo. We discuss the challenges of siRNA delivery and how LNPs have emerged as a pivotal solution to enhance antiviral efficacy. Specifically, this review focuses on work that have preclinically tested LNP formulated siRNA on virus infection animal models. Since the COVID-19 pandemic, we have witnessed a resurgence in the field of RNA-based therapies, including siRNAs against viruses including, SARS-CoV-2. Notably, the critical importance of LNPs as the ideal carrier for precious 'RNA cargo' can no longer be ignored with the advent of mRNA-LNP based COVID-19 vaccines. siRNA-based therapeutics represents an emerging class of anti-infective drugs with a foreseeable future as suitable antiviral agents.