Antibodies to AgTRIO, a mosquito salivary protein, partially reduce the initial Plasmodium burden in mice. We therefore silenced AgTRIO in mosquitoes and determined the relative contribution of AgTRIO to the ability of Anopheles gambiae to transmit Plasmodium berghei to mice. RNA interference-mediated silencing of AgTRIO inA. gambiae resulted in a 60% reduction in AgTRIO expression. The decrease in AgTRIO expression did not alter the burden of Plasmodium sporozoites in mosquito salivary glands. When experimentally injected into mice, sporozoites from AgTRIO-silenced mosquitoes colonized the liver less effectively than sporozoites from control mosquitoes. Silencing of AgTRIO did not decrease the infectivity of sporozoites in vitro or influence the expression of genes associated with Plasmodium cell adhesion or traversal activity. AgTRIO decreased the expression of proinflammation cytokines by splenocytes in vitro Moreover, in vivo, AgTRIO decreased the expression of TNF-α when coinjected with sporozoites into the skin and there was more TNF-α expression at the bite site of AgTRIO knockdown mosquitoes than at the bite site of control mosquitoes. AgTRIO therefore influences the local environment in the vertebrate host, which facilitates Plasmodium sporozoite infection in mice.
Keywords: Anopheles gambiae; Plasmodium; inflammation; malaria; saliva; sporozoite.
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