Aedes aegypti, commonly known as the yellow fever mosquito, is a highly adapted, invasive mosquito species recognized as a major global health threat that acts as the primary vector for several severe diseases, most notably dengue fever, as well as yellow fever, chikungunya and Zika virus. Local government agencies conduct routine molecular surveillance of these mosquitoes to detect and track viruses. However, they are primarily limited to using conventional reverse transcription polymerase chain reaction methodologies, which can only detect known pathogens that have already been identified and for which specific genetic primers have been developed.

Recent research efforts applying high-throughput RNA sequencing have led to a large expansion in the mosquito virome (the entire collection of viruses contained within mosquitoes). However, questions remain as to how persistent insect viruses are within mosquito colonies, how insect viruses interact with mosquito immune responses and how frequently insect viruses can be transmitted.

A new study by Boston University Chobanian & Avedisian School of Medicine researchers looked at the mosquitoes’ immune response to discover many more insect viruses and they hope to someday use the mosquitoes’ own immune system to battle some of the most pervasive and antagonistic human viruses. The findings are published in the journal Nature Communications.