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Abstract
Larval and adult mosquitoes mount immune responses against pathogens that invade their hemocoel. Although it has been suggested that a correlation exists between immune processes across insect life stages, the influence that an infection in the hemocoel of a larva has on the immune system of the eclosed adult remains unknown. Here, we used Anopheles gambiae to test whether a larval infection influences the adult response to a subsequent bacterial or malaria parasite infection. We found that for both female and male mosquitoes, a larval infection enhances the efficiency of bacterial clearance following a secondary infection in the hemocoel of adults. The adults that emerge from infected larvae have more hemocytes than adults that emerge from naive or injured larvae, and individual hemocytes have greater phagocytic activity. Furthermore, mRNA abundance of immune genes—such as cecropin A, Lysozyme C1, Stat‐A, and Tep1—is higher in adults that emerge from infected larvae. A larval infection, however, does not have a meaningful effect on the probability that female adults will survive a systemic bacterial infection, and increases the susceptibility of females to Plasmodium yoelii, as measured by oocyst prevalence and intensity in the midgut. Finally, immune proficiency varies by sex; females exhibit increased bacterial killing, have twice as many hemocytes, and more highly express immune genes. Together, these results show that a larval hemocoelic infection induces transstadial immune activation—possibly via transstadial immune priming—but that it confers both costs and benefits to the emerged adults.
Highlights
We found that a larval bacterial infection increases the ability of mosquitoes to kill bacteria acquired as adults, but decreases the ability to control a malaria infection
We found that a larval infection leads to a modest increase in the percentage of adult hemocytes that engage in phagocytosis, and that when the larval and adult in‐ fections are the same, the number of E. coli phagocytosed by each hemocyte is increased
We found that infected adults that eclosed from infected larvae tended to survive better than infected adults that eclosed from injured larvae, larval infection improved the ability of males—but not females—to survive a bacterial infec‐ tion acquired as an adult
Summary
The classical assumption was that invertebrate im‐ mune systems are not adaptive and respond identically to multiple infections (Beckage, 2008); studies on diverse groups of insects show that the innate immune system varies in response to repeated challenges (Bartholomay & Michel, 2018; Cooper & Eleftherianos, 2017; Hillyer, 2016; Masri & Cremer, 2014; Melillo, Marino, Italiani, & Boraschi, 2018; Milutinovic, Peuss, Ferro, & Kurtz, 2016; Shaw et al, 2018). Larval nutritional stress results in adults that have decreased melanization activity, fewer hemo‐ cytes (immune cells), and higher expression of immune effector genes (Muturi et al, 2011; Suwanchaichinda & Paskewitz, 1998; Telang et al, 2012). The presence of Escherichia coli during larval development increases phenolox‐ idase activity, nitric oxide production, and antibacterial activ‐ ity in adults (Moreno‐Garcia et al, 2015), whereas inhabiting a larval environment containing an Enterobacteriaceae isolate decreases antibacterial activity in adults (Dickson et al, 2017). In both Ae. aegypti and Anopheles gambiae, the gut microbe Chromobacterium sp. A larval infection does not have a meaningful effect on the ability of female adults to survive a bacterial infection
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