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1. Behavioral interplay between mosquito and mycolactone produced by Mycobacterium ulcerans and bacterial gene expression induced by mosquito proximity

   https://doi.org/10.1371/journal.pone.0289768  

   Kim, Dongmin; Crippen, Tawni L; Dhungel, Laxmi; Delclos, Pablo J; Tomberlin, Jeffery K; Jordan, Heather R (August 2023, PLOS ONE)

   de_Oliveira, Mozaniel Santana (Ed.)

   Mycolactone is a cytotoxic lipid metabolite produced byMycobacterium ulcerans, the environmental pathogen responsible for Buruli ulcer, a neglected tropical disease.Mycobacterium ulceransis prevalent in West Africa, particularly found in lentic environments, where mosquitoes also occur. Researchers hypothesize mosquitoes could serve as a transmission mechanism resulting in infection byM.ulceranswhen mosquitoes pierce skin contaminated withM.ulcerans. The interplay between the pathogen, mycolactone, and mosquito is only just beginning to be explored. A triple-choice assay was conducted to determine the host-seeking preference ofAedes aegyptibetweenM.ulceranswildtype (MU, mycolactone active) and mutant (MU^lac-, mycolactone inactive). Both qualitative and quantitative differences in volatile organic compounds’ (VOCs) profiles of MU and MU^lac-were determined by GC-MS. Additionally, we evaluated the interplay betweenAe.aegyptiproximity andM.ulceransmRNA expression. The results showed that mosquito attraction was significantly greater (126.0%) to an artificial host treated with MU than MU^lac-. We found that MU and MU^lacproduced differential profiles of VOCs associated with a wide range of biological importance from quorum sensing (QS) to human odor components. RT-qPCR assays showed that mycolactone upregulation was 24-fold greater for MU exposed toAe.aegyptiin direct proximity. Transcriptome data indicated significant induction of ten chromosomal genes of MU involved in stress responses and membrane protein, compared to MU^lac-when directly having access to or in near mosquito proximity. Our study provides evidence of possible interkingdom interactions between unicellular and multicellular species that MU present on human skin is capable of interreacting with unrelated species (i.e., mosquitoes), altering its gene expression when mosquitoes are in direct contact or proximity, potentially impacting the production of its VOCs, and consequently leading to the stronger attraction of mosquitoes toward human hosts. This study elucidates interkingdom interactions between viableM.ulceransbacteria andAe.aegyptimosquitoes, which rarely have been explored in the past. Our finding opens new doors for future research in terms of disease ecology, prevalence, and pathogen dispersal outside of theM.ulceranssystem. 

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2. Pathogen-microbiome interactions and the virulence of an entomopathogenic fungus

   https://doi.org/10.1128/aem.02293-23  

   Kolp, Matthew R; de_Anda_Acosta, Yazmin; Brewer, William; Nichols, Holly L; Goldstein, Elliott B; Tallapragada, Keertana; Parker, Benjamin J (June 2024, Applied and Environmental Microbiology)

   Tortosa, Pablo (Ed.)

   ABSTRACT Bacteria shape interactions between hosts and fungal pathogens. In some cases, bacteria associated with fungi are essential for pathogen virulence. In other systems, host-associated microbiomes confer resistance against fungal pathogens. We studied an aphid-specific entomopathogenic fungus calledPandora neoaphidisin the context of both host and pathogen microbiomes. Aphids host several species of heritable bacteria, some of which confer resistance againstPandora. We first found that spores that emerged from aphids that harbored protective bacteria were less virulent against subsequent hosts and did not grow on plate media. We then used 16S amplicon sequencing to study the bacterial microbiome of fungal mycelia and spores during plate culturing and host infection. We found that the bacterial community is remarkably stable in culture despite dramatic changes in pathogen virulence. Last, we used an experimentally transformed symbiont of aphids to show thatPandoracan acquire host-associated bacteria during infection. Our results uncover new roles for bacteria in the dynamics of aphid-pathogen interactions and illustrate the importance of the broader microbiological context in studies of fungal pathogenesis. IMPORTANCEEntomopathogenic fungi play important roles in the population dynamics of many insect species. Understanding the factors shaping entomopathogen virulence is critical for agricultural management and for the use of fungi in pest biocontrol. We show that heritable bacteria in aphids, which confer protection to their hosts against fungal entomopathogens, influence virulence against subsequent hosts. Aphids reproduce asexually and are typically surrounded by genetically identical offspring, and thus these effects likely shape the dynamics of fungal disease in aphid populations. Furthermore, fungal entomopathogens are known to rapidly lose virulence in lab culture, complicating their laboratory use. We show that this phenomenon is not driven by changes in the associated bacterial microbiome. These results contribute to our broader understanding of the aphid model system and shed light on the biology of the Entomophthorales—an important but understudied group of fungi. 

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3. Insulin-like peptide 3 stimulates hemocytes to proliferate in anautogenous and facultatively autogenous mosquitoes

   https://doi.org/10.1242/jeb.243460  

   Martinson, Ellen O.; Chen, Kangkang; Valzania, Luca; Brown, Mark R.; Strand, Michael R. (March 2022, Journal of Experimental Biology)

   ABSTRACT Most mosquito species are anautogenous, which means they must blood feed on a vertebrate host to produce eggs, while a few are autogenous and can produce eggs without blood feeding. Egg formation is best understood in the anautogenous mosquito Aedes aegypti, where insulin-like peptides (ILPs), ovary ecdysteroidogenic hormone (OEH) and 20-hydroxyecdysone (20E) interact to regulate gonadotrophic cycles. Circulating hemocytes also approximately double in abundance in conjunction with a gonadotrophic cycle, but the factors responsible for stimulating this increase remain unclear. Focusing on Ae. aegypti, we determined that hemocyte abundance similarly increased in intact blood-fed females and decapitated blood-fed females that were injected with ILP3, whereas OEH, 20E or heat-killed bacteria had no stimulatory activity. ILP3 upregulated insulin-insulin growth factor signaling in hemocytes, but few genes – including almost no transcripts for immune factors – were differentially expressed. ILP3 also stimulated circulating hemocytes to increase in two other anautogenous (Anopheles gambiae and Culex quinquefasciatus) and two facultatively autogenous mosquitoes (Aedes atropalpus and Culex pipiens molestus), but had no stimulatory activity in the obligately autogenous mosquito Toxorhynchites amboinensis. Altogether, our results identify ILPs as the primary regulators of hemocyte proliferation in association with egg formation, but also suggest this response has been lost in the evolution of obligate autogeny. 

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4. Wolbachia enhances the survival of Drosophila infected with fungal pathogens

   https://doi.org/10.1186/s12915-025-02130-0  

   Perlmutter, Jessamyn I; Atadurdyyeva, Aylar; Schedl, Margaret E; Unckless, Robert L (December 2025, BMC Biology)

   Background Wolbachia bacteria of arthropods are at the forefront of basic and translational research on multipartite host-symbiont-pathogen interactions. These vertically transmitted microbes are the most widespread endosymbionts on the planet due to factors including host reproductive manipulation and fitness benefits. Importantly, some strains of Wolbachia can inhibit viral pathogenesis within and between arthropod hosts. Mosquitoes carrying the wMel Wolbachia strain of Drosophila melanogaster have a greatly reduced capacity to spread viruses like dengue and Zika to humans. While significant research efforts have focused on viruses, relatively little attention has been given to Wolbachia-fungal interactions despite the ubiquity of fungal entomopathogens in nature. Results Here, we demonstrate that Wolbachia increase the longevity of their Drosophila melanogaster hosts when challenged with a spectrum of yeast and filamentous fungal pathogens. We find that this pattern can vary based on host genotype, sex, and fungal species. Further, Wolbachia correlates with higher fertility and reduced pathogen titers during initial fungal infection, indicating a significant fitness benefit. Finally, RNA sequencing results show altered expression of many immune and stress response genes in the context of Wolbachia and fungal infection, suggesting host immunity may be involved in the mechanism. Conclusions This study demonstrates Wolbachia’s protective role in diverse fungal pathogen interactions and determines that the phenotype is broad, but with several variables that influence both the presence and strength of the phenotype. It also is a critical step forward to understanding how symbionts can protect their hosts from a variety of pathogens. 

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5. Aphid facultative symbionts confer no protection against the fungal entomopathogen Batkoa apiculata

   https://doi.org/10.1371/journal.pone.0286095  

   Inchauregui, Rose A.; Tallapragada, Keertana; Parker, Benjamin J. (May 2023, PLOS ONE)

   Sanda, Nafiu Bala (Ed.)

   Fungi in the familyEntomophthoraceaeare prevalent pathogens of aphids. Facultative symbiotic bacteria harbored by aphids, includingSpiroplasma sp. andRegiella insecticola, have been shown to make their hosts more resistant to infection with the fungal pathogenPandora neoaphidis. How far this protection extends against other species of fungi in the familyEntomophthoraceaeis unknown. Here we isolated a strain of the fungal pathogenBatkoa apiculatainfecting a natural population of pea aphids (Acyrthosiphon pisum) and confirmed its identity by sequencing the 28S rRNA gene. We then infected a panel of aphids each harboring a different species or strain of endosymbiotic bacteria to test whether aphid symbionts protect againstB.apiculata. We found no evidence of symbiont-mediated protection against this pathogen, and our data suggest that some symbionts make aphids more susceptible to infection. This finding is relevant to our understanding of this important model of host-microbe interactions, and we discuss our results in the context of aphid-microbe ecological and evolutionary dynamics. 

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