Mosquitoes are responsible for several infectious diseases such as malaria, dengue fever, West Nile fever…etc. Due to the unavailability of effective vaccines and the development of drug and insecticide resistance, more than 2 million people are killed by mosquito-borne diseases annually. Therefore, any possible avenue for developing novel control strategies against mosquito-borne diseases is urgently needed. MMP is a group of matrix metalloproteinase proteins. Previous study reports that MMP have many functional roles. It was shown that Tribolium MMP1 is related to tracheal development, pupal morphogenesis and innate immune responses. In Drosophila, MMP1 was demonstrated to play an important role in tracheal elongation, blastema formation. Our previous results revealed that Aedes aegypti MMP1 (AaMMP1) was involved in the regulation of vitellogenesis. Therefore, we will investigate the regulation mechanism of AaMMP1 and its interaction with TOR signaling pathway. The expression of AaMMP1 was inhibited with the RNAi-mediated silence of Aedes aegypti TOR. We also examine the effect of AKT, an upstream component of TOR signaling pathway, in the regulation of AaMMP1. Interestingly, silence of Aedes aegypti AKT strongly inhibited the expression of AaMMP1. Detail characterization of the regulation machinery of AaMMP1 will provide new insights into the evolutionaily conserved features of MMP. Information gathered in this study will pave the way toward the establishment of efficient strategies for vector control. Keywords: Aedes aegypti、MMP1、TOR、AKT、Vitellogenesis