Aedes mosquitoes are implicated in the transmission of several viruses, including Dengue virus (DENV) to millions of people worldwide. The global expansion of Aedes mosquitos'habitats creates a desperate need for control mechanisms with minimum negative effects. Deciphering the molecular interactions between DENV and its vector is a promising field to develop such efficient control strategies. As soon as the viremic blood is ingested by the mosquito, DENV is encountered by different innate immunity responses. During the past three decades, different pathways of innate immunity have been identified in Aedes spp. Recognition of viral molecular patterns, including viral RNA, and vector attempts to resist DENV infection are the most important defense mechanisms. Crosstalk between innate immune pathways and redundancy of anti-DENV responses become more evident as research progresses. The viral evasion and repression of vector immune response are increasingly being discovered. Such viral strategies are potential targets to be disrupted in order to limit DENV infection and spread. Vector-related non-immune factors such as gut microbiota can also be tapped for efficient control of DENV infection in Aedes mosquito's populations without affecting their fitness. Current trends in controlling DENV in its vector are exploring the potentials of using genetically engineered mosquitoes via RNA-based systems to degrade DENV genome once released into the midgut cells cytoplasm at the early phase of the infection.
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