From RNA interference technology to effective therapy: how far have we come and how far to go?

Over a decade has passed since the first description of RNAi in animals--the fundamental endogenous process by which small dsRNAs mediate sequence-specific gene silencing. This discovery has radically transformed our understanding of gene regulation and function and spawned a whole new biotechnology industry focused on developing RNAi-based therapeutic approaches to a variety of human diseases that have otherwise proved challenging to conventional therapies. While RNAi technologies hold great promise as a powerful medical tool, successful delivery of RNAi agents and effective measurement of their uptake are major challenges in translating RNAi therapies to the clinic. Exciting developments in the field have also been tempered by safety concerns surrounding the immunogenic potential of this gene silencing technology and the potential side effects associated with exploiting a crucial biological pathway for therapeutic benefit. This article examines the progress of RNAi therapeutics including advances in delivery and safety, and recent findings from several Phase I-III clinical trials. The emergence of a novel application of RNAi in enhancing the delivery of low-molecular weight drugs to neuronal tissues will also be presented to provide an outlook on the future of RNAi technologies.