Cuticular profiling of insecticide resistant Aedes aegypti

Author:

Jacobs Ella,Chrissian Christine,Rankin-Turner Stephanie,Wear Maggie,Camacho Emma,Broderick Nichole A.,McMeniman Conor J.,Stark Ruth E.,Casadevall Arturo

Abstract

AbstractInsecticides have made great strides in reducing the global burden of vector-borne disease. Nonetheless, serious public health concerns remain because insecticide-resistant vector populations continue to spread globally. To circumvent insecticide resistance, it is essential to understand all contributing mechanisms. Contact-based insecticides are absorbed through the insect cuticle, which is comprised mainly of chitin polysaccharides, cuticular proteins, hydrocarbons, and phenolic biopolymers sclerotin and melanin. Cuticle interface alterations can slow or prevent insecticide penetration in a phenomenon referred to as cuticular resistance. Cuticular resistance characterization of the yellow fever mosquito, Aedes aegypti, is lacking. In the current study, we utilized solid-state nuclear magnetic resonance spectroscopy, gas chromatography/mass spectrometry, and transmission electron microscopy to gain insights into the cuticle composition of congenic cytochrome P450 monooxygenase insecticide resistant and susceptible Ae. aegypti. No differences in cuticular hydrocarbon content or phenolic biopolymer deposition were found. In contrast, we observed cuticle thickness of insecticide resistant Ae. aegypti increased over time and exhibited higher polysaccharide abundance. Moreover, we found these local cuticular changes correlated with global metabolic differences in the whole mosquito, suggesting the existence of novel cuticular resistance mechanisms in this major disease vector.

Funder

Johns Hopkins Malaria Research Institute, Johns Hopkins Bloomberg School of Public Health

City College of New York

Johns Hopkins University

National Institutes of Health

Publisher

Springer Science and Business Media LLC

Subject

Multidisciplinary

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