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1. PACAP is a pathogen-inducible resident antimicrobial neuropeptide affording rapid and contextual molecular host defense of the brain

   https://doi.org/10.1073/pnas.1917623117  

   Lee, Ernest Y.; Chan, Liana C.; Wang, Huiyuan; Lieng, Juelline; Hung, Mandy; Srinivasan, Yashes; Wang, Jennifer; Waschek, James A.; Ferguson, Andrew L.; Lee, Kuo-Fen; et al (December 2020, Proceedings of the National Academy of Sciences)

   Defense of the central nervous system (CNS) against infection must be accomplished without generation of potentially injurious immune cell-mediated or off-target inflammation which could impair key functions. As the CNS is an immune-privileged compartment, inducible innate defense mechanisms endogenous to the CNS likely play an essential role in this regard. Pituitary adenylate cyclase-activating polypeptide (PACAP) is a neuropeptide known to regulate neurodevelopment, emotion, and certain stress responses. While PACAP is known to interact with the immune system, its significance in direct defense of brain or other tissues is not established. Here, we show that our machine-learning classifier can screen for immune activity in neuropeptides, and correctly identified PACAP as an antimicrobial neuropeptide in agreement with previous experimental work. Furthermore, synchrotron X-ray scattering, antimicrobial assays, and mechanistic fingerprinting provided precise insights into how PACAP exerts antimicrobial activities vs. pathogens via multiple and synergistic mechanisms, including dysregulation of membrane integrity and energetics and activation of cell death pathways. Importantly, resident PACAP is selectively induced up to 50-fold in the brain in mouse models ofStaphylococcus aureusorCandida albicansinfection in vivo, without inducing immune cell infiltration. We show differential PACAP induction even in various tissues outside the CNS, and how these observed patterns of induction are consistent with the antimicrobial efficacy of PACAP measured in conditions simulating specific physiologic contexts of those tissues. Phylogenetic analysis of PACAP revealed close conservation of predicted antimicrobial properties spanning primitive invertebrates to modern mammals. Together, these findings substantiate our hypothesis that PACAP is an ancient neuro-endocrine-immune effector that defends the CNS against infection while minimizing potentially injurious neuroinflammation. 

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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. 

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3. Host JAK-STAT activity is a target of parasitoid wasp virulence strategies

   https://doi.org/10.1371/journal.ppat.1012349  

   Brantley, Susanna E; Stouthamer, Corinne M; Kr, Pooja; Fischer, Mary L; Hill, Joshua; Schlenke, Todd A; Mortimer, Nathan T (July 2024, PLOS Pathogens)

   Schneider, David S (Ed.)

   Innate immune responses that allow hosts to survive infection depend on the action of multiple conserved signaling pathways. Pathogens and parasites in turn have evolved virulence factors to target these immune signaling pathways in an attempt to overcome host immunity. Consequently, the interactions between host immune molecules and pathogen virulence factors play an important role in determining the outcome of an infection. The immune responses ofDrosophila melanogasterprovide a valuable model to understand immune signaling and host-pathogen interactions. Flies are commonly infected by parasitoid wasps and mount a coordinated cellular immune response following infection. This response is characterized by the production of specialized blood cells called lamellocytes that form a tight capsule around wasp eggs in the host hemocoel. The conserved JAK-STAT signaling pathway has been implicated in lamellocyte proliferation and is required for successful encapsulation of wasp eggs. Here we show that activity ofStat92E, theD.melanogasterSTAT ortholog, is induced in immune tissues following parasitoid infection. Virulent wasp species are able to suppressStat92Eactivity during infection, suggesting they target JAK-STAT pathway activation as a virulence strategy. Furthermore, two wasp species (Leptopilina guineaensisandGanaspis xanthopoda) suppress phenotypes associated with a gain-of-function mutation inhopscotch, theD.melanogasterJAK ortholog, indicating that they inhibit the activity of the core signaling components of the JAK-STAT pathway. Our data suggest that parasitoid wasp virulence factors block JAK-STAT signaling to overcome fly immune defenses. 

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4. Rhomboid-mediated cleavage of the immune receptor XA21 protects grain set and male fertility in rice

   https://doi.org/10.1073/pnas.2502025122  

   Vergish, Satyam; Huang, Xiaoen; Zhang, Guiyun; de_Toledo_Franceschi, Beatriz; Li, Jian-Liang; Wu, Xiao-Xia; Nuraj, Joana; Huguet-Tapia, Jose_C; Parajuli, Apekshya; Chen, Xiuhua; et al (May 2025, Proceedings of the National Academy of Sciences)

   To maintain growth and to successfully reproduce, organisms must protect key functions in specific tissues, particularly when countering pathogen invasion using internal defensive proteins that may disrupt their own developmental processes. The rice immune receptor XA21 confers race-specific resistance againstXanthomonas oryzaepv.oryzae, which causes the deadly disease bacterial leaf blight. Here, we demonstrate that XA21 is cleaved by the rhomboid-like protease OsRBL3b, likely within its transmembrane domain.OsRBL3bmRNA transcripts are preferentially expressed in rice spikelets. Rice plants expressingXa21but lacking a functionalOsRBL3bdisplayed impaired anther dehiscence and pollen viability, resulting in male sterility and yield reduction with high levels of XA21 protein present in spikelets during anthesis. In leaves,osrbl3bmutants expressing XA21 had normal levels of this resistance protein and disease immunity. This balance between reproduction and disease resistance through the specific expression of a rhomboid protease may be key to limiting the detrimental effects of an active immune response and may be useful in future for genetic improvement of crops. 

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5. Extracellular matrix protein N-glycosylation mediates immune self-tolerance in Drosophila melanogaster

   https://doi.org/10.1073/pnas.2017460118  

   Mortimer, Nathan T.; Fischer, Mary L.; Waring, Ashley L.; KR, Pooja; Kacsoh, Balint Z.; Brantley, Susanna E.; Keebaugh, Erin S.; Hill, Joshua; Lark, Chris; Martin, Julia; et al (September 2021, Proceedings of the National Academy of Sciences)

   null (Ed.)

   In order to respond to infection, hosts must distinguish pathogens from their own tissues. This allows for the precise targeting of immune responses against pathogens and also ensures self-tolerance, the ability of the host to protect self tissues from immune damage. One way to maintain self-tolerance is to evolve a self signal and suppress any immune response directed at tissues that carry this signal. Here, we characterize the Drosophila tuSz 1 mutant strain, which mounts an aberrant immune response against its own fat body. We demonstrate that this autoimmunity is the result of two mutations: 1) a mutation in the GCS1 gene that disrupts N-glycosylation of extracellular matrix proteins covering the fat body, and 2) a mutation in the Drosophila Janus Kinase ortholog that causes precocious activation of hemocytes. Our data indicate that N-glycans attached to extracellular matrix proteins serve as a self signal and that activated hemocytes attack tissues lacking this signal. The simplicity of this invertebrate self-recognition system and the ubiquity of its constituent parts suggests it may have functional homologs across animals. 

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