More Like this

1. Interspecies microbiome transplantation recapitulates microbial acquisition in mosquitoes

   https://doi.org/10.1186/s40168-022-01256-5  

   Coon, Kerri L.; Hegde, Shivanand; Hughes, Grant L. (April 2022, Microbiome)

   Abstract BackgroundMosquitoes harbor microbial communities that play important roles in their growth, survival, reproduction, and ability to transmit human pathogens. Microbiome transplantation approaches are often used to study host-microbe interactions and identify microbial taxa and assemblages associated with health or disease. However, no such approaches have been developed to manipulate the microbiota of mosquitoes. ResultsHere, we developed an approach to transfer entire microbial communities between mosquito cohorts. We undertook transfers between (Culex quinquefasciatustoAedes aegypti) and within (Ae. aegyptitoAe. aegypti) species to validate the approach and determine the number of mosquitoes required to prepare donor microbiota. After the transfer, we monitored mosquito development and microbiota dynamics throughout the life cycle. Typical holometabolous lifestyle-related microbiota structures were observed, with higher dynamics of microbial structures in larval stages, including the larval water, and less diversity in adults. Microbiota diversity in recipient adults was also more similar to the microbiota diversity in donor adults. ConclusionsThis study provides the first evidence for successful microbiome transplantation in mosquitoes. Our results highlight the value of such methods for studying mosquito-microbe interactions and lay the foundation for future studies to elucidate the factors underlying microbiota acquisition, assembly, and function in mosquitoes under controlled conditions. 

   more » « less
2. The Route of Infection Influences the Contribution of Key Immunity Genes to Antibacterial Defense in Anopheles gambiae

   https://doi.org/10.1159/000511401  

   Dekmak, Amira San; Yang, Xiaowei; Zu Dohna, Heinrich; Buchon, Nicolas; Osta, Mike A. (March 2021, Journal of Innate Immunity)

   null (Ed.)

   Insect systemic immune responses to bacterial infections have been mainly studied using microinjections, whereby the microbe is directly injected into the hemocoel. While this methodology has been instrumental in defining immune signaling pathways and enzymatic cascades in the hemolymph, it remains unclear whether and to what extent the contribution of systemic immune defenses to host microbial resistance varies if bacteria invade the hemolymph after crossing the midgut epithelium subsequent to an oral infection. Here, we address this question using the pathogenic Serratia marcescens (Sm) DB11 strain to establish systemic infections of the malaria vector Anopheles gambiae, either by septic Sm injections or by midgut crossing after feeding on Sm. Using functional genetic studies by RNAi, we report that the two humoral immune factors, thioester-containing protein 1 and C-type lectin 4, which play key roles in defense against Gram-negative bacterial infections, are essential for defense against systemic Sm infections established through injection, but they become dispensable when Sm infects the hemolymph following oral infection. Similar results were observed for the mosquito Rel2 pathway. Surprisingly, blocking phagocytosis by cytochalasin D treatment did not affect mosquito susceptibility to Sm infections established through either route. Transcriptomic analysis of mosquito midguts and abdomens by RNA-seq revealed that the transcriptional response in these tissues is more pronounced in response to feeding on Sm. Functional classification of differentially expressed transcripts identified metabolic genes as the most represented class in response to both routes of infection, while immune genes were poorly regulated in both routes. We also report that Sm oral infections are associated with significant downregulation of several immune genes belonging to different families, specifically the clip-domain serine protease family. In sum, our findings reveal that the route of infection not only alters the contribution of key immunity genes to host antimicrobial defense but is also associated with different transcriptional responses in midguts and abdomens, possibly reflecting different adaptive strategies of the host. 

   more » « less
3. The transcriptional response in mosquitoes distinguishes between fungi and bacteria but not Gram types

   https://doi.org/10.1186/s12864-024-10153-0  

   Hixson, Bretta; Huot, Louise; Morejon, Bianca; Yang, Xiaowei; Nagy, Peter; Michel, Kristin; Buchon, Nicolas (December 2024, BMC Genomics)

   Mosquitoes are prolific vectors of human pathogens, therefore a clear and accurate understanding of the organization of their antimicrobial defenses is crucial for informing the development of transmission control strategies. The canonical infection response in insects, as described in the insect modelDrosophila melanogaster, is pathogen type-dependent, with distinct stereotypical responses to Gram-negative bacteria and Gram-positive bacteria/fungi mediated by the activation of the Imd and Toll pathways, respectively. To determine whether this pathogen-specific discrimination is shared by mosquitoes, we used RNAseq to capture the genome-wide transcriptional response ofAedes aegyptiandAnopheles gambiae(s.l.) to systemic infection with Gram-negative bacteria, Gram-positive bacteria, yeasts, and filamentous fungi, as well as challenge with heat-killed Gram-negative, Gram-positive, and fungal pathogens. From the resulting data, we found thatAe. aegyptiandAn. gambiaeboth mount a core response to all categories of infection, and this response is highly conserved between the two species with respect to both function and orthology. When we compared the transcriptomes of mosquitoes infected with different types of bacteria, we observed that the intensity of the transcriptional response was correlated with both the virulence and growth rate of the infecting pathogen. Exhaustive comparisons of the transcriptomes of Gram-negative-challenged versus Gram-positive-challenged mosquitoes yielded no difference in either species. InAe. aegypti, however, we identified transcriptional signatures specific to bacterial infection and to fungal infection. The bacterial infection response was dominated by the expression of defensins and cecropins, while the fungal infection response included the disproportionate upregulation of an uncharacterized family of glycine-rich proteins. These signatures were also observed inAe. aegyptichallenged with heat-killed bacteria and fungi, indicating that this species can discriminate between molecular patterns that are specific to bacteria and to fungi. 

   more » « less
4. Alpha‐mannosidase‐2 modulates arbovirus infection in a pathogen‐ and Wolbachia ‐specific manner in Aedes aegypti mosquitoes

   https://doi.org/10.1111/imb.12904  

   Urakova, Nadya; Joseph, Renuka_E; Huntsinger, Allyn; Macias, Vanessa_M; Jones, Matthew_J; Sigle, Leah_T; Li, Ming; Akbari, Omar_S; Xi, Zhiyong; Lymperopoulos, Konstantinos; et al (March 2024, Insect Molecular Biology)

   Abstract MultipleWolbachiastrains can block pathogen infection, replication and/or transmission inAedes aegyptimosquitoes under both laboratory and field conditions. However,Wolbachiaeffects on pathogens can be highly variable across systems and the factors governing this variability are not well understood. It is increasingly clear that the mosquito host is not a passive player in whichWolbachiagoverns pathogen transmission phenotypes; rather, the genetics of the host can significantly modulateWolbachia‐mediated pathogen blocking. Specifically, previous work linked variation inWolbachiapathogen blocking to polymorphisms in the mosquito alpha‐mannosidase‐2 (αMan2) gene. Here we use CRISPR‐Cas9 mutagenesis to functionally test this association. We developed αMan2 knockouts and examined effects on bothWolbachiaand virus levels, using dengue virus (DENV;Flaviviridae) and Mayaro virus (MAYV;Togaviridae).Wolbachiatitres were significantly elevated in αMan2 knockout (KO) mosquitoes, but there were complex interactions with virus infection and replication. InWolbachia‐uninfected mosquitoes, the αMan2 KO mutation was associated with decreased DENV titres, but in aWolbachia‐infected background, the αMan2 KO mutation significantly increased virus titres. In contrast, the αMan2 KO mutation significantly increased MAYV replication inWolbachia‐uninfected mosquitoes and did not affectWolbachia‐mediated virus blocking. These results demonstrate that αMan2 modulates arbovirus infection inA. aegyptimosquitoes in a pathogen‐ andWolbachia‐specific manner, and thatWolbachia‐mediated pathogen blocking is a complex phenotype dependent on the mosquito host genotype and the pathogen. These results have a significant impact for the design and use ofWolbachia‐based strategies to control vector‐borne pathogens. 

   more » « less
5. Natural variation in the contribution of microbial density to inducible immune dynamics

   https://doi.org/10.1111/mec.15293  

   Jent, Derrick; Perry, Abby; Critchlow, Justin; Tate, Ann T. (November 2019, Molecular Ecology)

   Abstract Immune responses evolve to balance the benefits of microbial killing against the costs of autoimmunity and energetic resource use. Models that explore the evolution of optimal immune responses generally include a term for constitutive immunity, or the level of immunological investment prior to microbial exposure, and for inducible immunity, or investment in immune function after microbial challenge. However, studies rarely consider the functional form of inducible immune responses with respect to microbial density, despite the theoretical dependence of immune system evolution on microbe‐ versus immune‐mediated damage to the host. In this study, we analyse antimicrobial peptide (AMP) gene expression from seven wild‐caught flour beetle populations (Triboliumspp.) during acute infection with the virulent bacteriaBacillus thuringiensis(Bt) andPhotorhabdus luminescens(P.lum) to demonstrate that inducible immune responses mediated by the humoral IMD pathway exhibit natural variation in both microbe density‐dependent and independent temporal dynamics. Beetle populations that exhibited greater AMP expression sensitivity to Bt density were also more likely to die from infection, while populations that exhibited higher microbe density‐independent AMP expression were more likely to surviveP. luminescensinfection. Reduction in pathway signalling efficiency through RNAi‐mediated knockdown of theimdgene reduced the magnitude of both microbe‐independent and dependent responses and reduced host resistance to Bt growth, but had no net effect on host survival. This study provides a framework for understanding natural variation in the flexibility of investment in inducible immune responses and should inform theory on the contribution of nonequilibrium host‐microbe dynamics to immune system evolution. 

   more » « less