Abstract
Double-stranded RNA induces the homology-dependent degradation of cognate mRNA in the cytoplasm via RNA interference (RNAi) but also is a target for adenosine-to-inosine (A-to-I) RNA editing by adenosine deaminases acting on RNA (ADARs). An interaction between the RNAi and the RNA editing pathways in Caenorhabditis elegans has been suggested recently, but the precise mode of interaction remains to be established. In addition, it is unclear whether this interaction is possible in mammalian cells with their somewhat different RNAi pathways. Here we show that ADAR1 and ADAR2, but not ADAR3, avidly bind short interfering RNA (siRNA) without RNA editing. In particular, the cytoplasmic full-length isoform of ADAR1 has the highest affinity among known ADARs, with a subnanomolar dissociation constant. Gene silencing by siRNA is significantly more effective in mouse fibroblasts homozygous for an ADAR1 null mutation than in wild-type cells. In addition, suppression of RNAi effects are detected in fibroblast cells overexpressing functional ADAR1 but not when overexpressing mutant ADAR1 lacking double-stranded RNA-binding domains. These results identify ADAR1 as a cellular factor that limits the efficacy of siRNA in mammalian cells.
Highlights
RNA interference (RNAi) and is a target for ade- integration into the RNA-induced silencing complex [4, 5]
A 19-kDa protein (p19) homodimer synthesized by tombusvirus, incapable of binding long Double-stranded RNA (dsRNA), binds short interfering RNA (siRNA) of a defined length with a subnanomolar dissociation constant, thereby suppressing the host plant defense RNAi mechanism [43, 44]
a>]. Innosine-to-inosine (A-to-I) editing of a trigger dsRNA in vitro by recombinant ADAR2 greatly reduces the amount of siRNA produced and antagonizes RNAi effects [29]
Summary
RNA interference (RNAi) and is a target for ade- integration into the RNA-induced silencing complex [4, 5]. In may be factors other than PKR that limit RNAi efficacy in addition, suppression of RNAi effects are detected in fibroblast cells overexpressing functional ADAR1 but not when overexpressing mutant ADAR1 lacking double-stranded RNA-binding domains.
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