Chitosan nanocarriers mediated dsRNA delivery in gene silencing for Helicoverpa armigera biocontrol

Specific gene silencing by RNA interference (RNAi) involving exogenous double stranded RNA (dsRNA) delivery has potential in Helicoverpa armigera control, a resistant insect pest. Here, ionotropically synthesized cationic chitosan nanoparticles (CNPs, 95 nm size, +36 mV charge) showed efficient dsRNA loading (95 %) and effective protection from insect gut nucleases and pH degradation. The CNPs were tagged with fluorescence and found to be stable on leaf surface (24 h) and were internalized by columnar insect gut cells. A single dose of CNPs:dsRNA complex (containing 0.1 μg dsRNA) ingested by H. armigera larvae via artificial/leaf feed effectively silenced lipase and chitinase target genes (2–2.7 fold downregulation) and suppressed their respective enzyme activities (2–5.3 fold). RNAi caused reduced pupation (5-fold) and impaired moth emergence. RNAi effects correlated significantly with 100% insect mortality (PCA 0.97–0.99). Furthermore, specific dsRNA did not affect non-target insects Spodoptera litura and Drosophila melanogaster. Developed CNPs:dsRNA complexes towards RNAi targets can serve as a safe, targeted insecticide for sustainable crop protection. [Display omitted] •Chitosan nanoparticles (CNPs) protect dsRNA from degradation and pH hydrolysis.•CNPs-dsRNA effectively downregulated the target genes and their respective enzymes.•100 ng of CNPs delivered dsRNA disrupts insect life cycle to cause high mortality.•Designed dsRNAs were specific and showed no off-target and non-target effects.•CNPs-dsRNA has potential application in RNAi for pest control and crop protection.