Transcription profiling of resistance to Bti toxins in the mosquito Aedes aegypti using next-generation sequencing

The control of mosquitoes transmitting infectious diseases relies mainly on the use of chemical insecticides. However, resistance to most chemical insecticides threatens mosquito control programs. In this context, the spraying of toxins produced by the bacteria Bacillus thuringiensis subsp. israelensis (Bti) in larval habitats represents an alternative to chemical insecticides and is now widely used for mosquito control. Recent studies suggest that resistance of mosquitoes to Bti toxin may occur locally but mechanisms have not been characterized so far. In the present study, we investigated gene transcription level variations associated with Bti toxin resistance in the mosquito Aedes aegypti using a next-generation sequencing approach. More than 6 million short cDNA tags were sequenced from larvae of two strains sharing the same genetic background: a Bti toxins-resistant strain and a susceptible strain. These cDNA tags were mapped with a high coverage (308 reads per position in average) to more than 6000 genes of Ae. aegypti genome and used to quantify and compare the transcription level of these genes between the two mosquito strains. Among them, 86 genes were significantly differentially transcribed more than 4-fold in the Bti toxins resistant strain comparatively to the susceptible strain. These included gene families previously associated with Bti toxins resistance such as serine proteases, alkaline phosphatase and alpha-amylase. These results are discussed in regards of potential Bti toxins resistance mechanisms in mosquitoes.

Graphical abstractFigure optionsDownload full-size imageDownload as PowerPoint slideHighlights► More than 6 million short cDNA tags sequenced from Bti toxins-resistant and susceptible Aedes aegypti larvae. ► More than 6000 genes identified, including 138 candidate genes potentially involved in Bti resistance. ► Eighty-six genes were differentially transcribed in the Bti resistant strain. ► Two Bti-toxins potential receptors and one serine protease putatively involved in Bti resistance were under-transcribed.