RNA Interference Is Enhanced by Knockdown of Double-Stranded RNases in the Yellow Fever Mosquito <i>Aedes aegypti</i>

RNA interference (RNAi) techniques are being developed for a range of pest insect control technologies, including the sterile insect technique (SIT) and double-stranded RNA (dsRNA)-based insecticides. In SIT applications, where >99% of the released males should be sterile to meet industry standar...

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Bibliographic Details
Main Authors: David Giesbrecht, Daniel Heschuk, Ian Wiens, David Boguski, Parker LaChance, Steve Whyard
Format: Article
Language:English
Published: MDPI AG 2020-05-01
Series:Insects
Subjects:
Online Access:https://www.mdpi.com/2075-4450/11/6/327
Description
Summary:RNA interference (RNAi) techniques are being developed for a range of pest insect control technologies, including the sterile insect technique (SIT) and double-stranded RNA (dsRNA)-based insecticides. In SIT applications, where >99% of the released males should be sterile to meet industry standards, the efficiency of RNAi will need to be improved for many insect species if this technology is to be adopted. Endogenous dsRNases can impede dsRNA delivery in some insects, and, here, we investigated whether dsRNases in the midgut could limit RNAi efficacy in the mosquito <i>Aedes aegypti</i>. Ten putative dsRNases were identified in the <i>Ae. aegypti</i> genome, with two highly expressed in the midguts of larvae. Using an ex vivo assay, we observed that dsRNA was rapidly degraded within the mosquito larva’s gut. Double-stranded RNA targeting these two dsRNases, when fed to the larvae, effectively reduced gut dsRNase activity. When these dsRNase-specific dsRNAs were co-delivered with dsRNA targeting a cyan fluorescent protein (CFP) reporter gene, greater knockdown of CFP fluorescence was observed. These results suggest that inhibiting dsRNase activity could enable the implementation of RNAi-based mosquito control methods.
ISSN:2075-4450