Activation of the autophagy pathway affects Dengue virus infection in Aedes aegypti

Abstract

AbstractMosquito-borne Dengue virus (DENV) has caused major disease worldwide, impacting 50 to 100 million people every year, and is spread by the major mosquito vector Aedes aegypti. Understanding mosquito physiology and developing new control strategies becomes an important issue to eliminate DENV. We focused on autophagy, a pathway suggested as having a positive influence on virus replication in humans, as a potential anti-viral target in the mosquito. To understand the role played by autophagy in Ae. aegypti, we examined the expression of the pathway in vitro (Aag-2 cell) and in vivo (Ae. aegypti). The results indicated that DENV infection in Aag-2 cells caused the microtubule-associated protein light chain 3-phosphatidylethanolamine conjugate (LC3-II) protein levels to increase which indicated the activation of the autophagy pathway. Rapamycin and 3-Methyladenine were used to activate or suppress the autophagy pathway, respectively. Rapamycin treatment decreased the virus titer in the Aag-2 cells, but the 3-Methyladenine treatment did not affect DENV titer. In Ae. aegypti, microinjected rapamycin increased the DENV titer after one-day infection and was significantly different compared to the control group titer. Two ATG genes, ATG4 and ATG12, were expressed differentially under the rapamycin treatments. Although the results differed between in vitro and in vivo studies, findings from both support the interaction between autophagy and DENV. Our studies revealed the activation of the autophagy pathway through rapamycin could be related to DENV infection in the mosquito. The possibility of autophagy being associated with different antiviral mechanisms at different extrinsic incubation times and tissues in Ae. aegypti is discussed.Author SummaryDengue virus (DENV) has been a great threat to public health and has not developed an efficient method to stop the transmission. To understand the complex interaction between virus and mosquito, we investigate the autophagy pathway and its role during the infection process. We noticed the induction of autophagy pathways from DENV infection in Aag-2 cells and blood meal from Ae. aegypti. Moreover, activation of the autophagy pathway from rapamycin could alter the DENV titer. Our results indicated the autophagy pathway is associated with DENV and could be crucial during the DENV infection. Furthermore, we proved the practicality of small molecules in altering the autophagy pathway in mosquitoes, and thus the usage of small molecules as possible mosquito pathogen vaccines should be evaluated.