Photoregulation of Gene Expression with Amantadine-Modified Caged siRNAs through Host-Guest Interactions.

RNA interference is an essential and powerful tool for targeting and verifying specific gene functions. Conditional control of small interfering RNA (siRNA) activity, especially using light activation, is a potential method for regulating target gene expression and functions. In this study, a series of photolabile siRNAs with amantadine modification have been rationally designed and developed through host-guest interactions between amantadine and β-cyclodextrin derivatives to enhance the blocking effect of siRNA binding and/or RNA-induced silencing complex processing. These caged siRNAs with amantadine modification at the 5' end of antisense-strand RNA were efficiently inactivated through the host-guest interactions between amantadine and β-cyclodextrin. Photomodulation of the gene silencing activity of these amantadine-modified caged siRNAs targeting both exogenous and endogenous genes was successfully achieved, which indicates that host-guest interactions could be a new strategy for developing new caged siRNAs for gene photoregulation with low leaking activity.