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1. Transcriptional responses of the Trichoplusia ni midgut to oral infection by the baculovirus Autographa californica Multiple Nucleopolyhedrovirus

   https://doi.org/10.1128/JVI.00353-19  

   Shrestha, Anita ; Bao, Kan ; Chen, Wenbo ; Wang, Ping ; Fei, Zhangjun ; Blissard, Gary W. ( May 2019 , Journal of Virology)

   Baculoviruses are large dsDNA viruses that are virulent pathogens of certain insect species. In a natural host, Trichoplusia ni, infection by the model baculovirus Autographa californica Multiple Nucleopolyhedrovirus (AcMNPV) begins when the occluded form of the virus disassembles in the midgut and virions infect midgut epithelial cells to establish the primary phase of the infection. To better understand the primary phase of the AcMNPV infection cycle, newly molted 5 th instar T. ni larvae were orally infected with AcMNPV occlusion bodies and transcriptional responses of the T. ni midgut were analyzed at various times from 0-72 hours post infection, using RNA-Seq analysis and a T. ni reference genome. The numbers of differentially expressed host genes increased as the infection progressed, and we identified a total of 3,372 differentially expressed T. ni transcripts in the AcMNPV-infected midgut. Genes encoding orthologs of HMG176, atlastin, and CPH43 were among the most dramatically upregulated in response to AcMNPV infection. A number of cytochrome P450 genes were downregulated in response to infection. We also identified the effects of AcMNPV infection on a large variety of genes associated with innate immunity. This analysis provides an abundance of new and detailed information on host responses to baculovirus infection during the primary phase of the infection in the midgut, and will be important for understanding how baculoviruses establish productive infections in the organism. IMPORTANCE Baculoviruses are virulent pathogens of a number of important insect pest species. In the host Trichoplusia ni , infection begins in the midgut when infectious virions of the occulsion derived virus (ODV) phenotype enter and subsequently replicate in cells of the midgut epithelium. A second virion phenotype (budded virus or BV) is produced there and BV mediates systemic infection of the animal. Most prior detailed studies of baculovirus infections have focused on BV infections of cultured cells. In this study, we examined the transcriptional responses of the T. ni midgut to infection by ODV of the baculovirus AcMNPV, and identified a variety of host genes that respond dramatically to viral infection. Understanding transcriptional responses of the host midgut to viral infection is critically important for understanding the biphasic infection in the animal as a whole. 

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2. Role of Viral Hemorrhagic Septicemia Virus Matrix (M) Protein in Suppressing Host Transcription

   https://doi.org/10.1128/JVI.00279-17  

   Ke, Qi ; Weaver, Wade ; Pore, Adam ; Gorgoglione, Bartolomeo ; Wildschutte, Julia Halo ; Xiao, Peng ; Shepherd, Brian S. ; Spear, Allyn ; Malathi, Krishnamurthy ; Stepien, Carol A. ; et al ( July 2017 , Journal of Virology)

   Viral Hemorrhagic Septicemia virus (VHSV) is a pathogenic fish rhabdovirus found in discrete locales throughout the northern hemisphere. VHSV infection of fish cells leads to upregulation of the host's virus detection response, but the virus quickly suppresses interferon (IFN) production and antiviral genes expression. By systematically screening each of the six VHSV structural and nonstructural genes, we have identified matrix protein (M) as its most potent anti-host protein. VHSV-IVb M alone suppressed mitochondrial antiviral signaling protein (MAVS) and type I IFN-induced gene expression in a dose-dependent manner. M also suppressed the constitutively active SV40 promoter and globally decreased cellular RNA levels. Chromatin immunoprecipitation (ChIP) studies illustrated that M inhibited RNA polymerase II (RNAP II) recruitment to gene promoters, and decreased RNAP II CTD Ser2 phosphorylation during VHSV infection. However, transcription directed by RNAP I-III was suppressed by M. To identify regions of functional importance, M proteins from a variety of VHSV strains were tested in cell-based transcriptional inhibition assays. M protein of a particular VHSV-Ia strain, F1, was significantly less potent than -IVb M at inhibiting SV40/luc expression, yet differed by just four amino acids. Mutation of D62 to alanine alone, or in combination with an E181 to alanine mutation (D62A/E181A), dramatically reduced the ability of -IVb M to suppress host transcription. Introducing either M D62A or D62A/E181A mutations into VHSV-IVb via reverse genetics resulted in viruses that replicated efficiently but exhibited less cytotoxicity and reduced anti-transcriptional activities, implicating M as a primary regulator of cytopathicity and host transcriptional suppression. Importance: Viruses must suppress host antiviral responses to replicate and spread between hosts. In these studies, we identified the matrix protein of the deadly fish Novirhabdovirus, VHSV, as a critical mediator of host suppression during infection. Our studies indicated that M alone could block cellular gene expression at very low expression levels. We identified several subtle mutations in M that were less potent at suppressing host transcription. When these mutations were engineered back into recombinant viruses, the resulting viruses replicated well but elicited less toxicity in infected cells and activated host innate immune responses more robustly. These data demonstrated that VHSV M plays an important role in mediating both virus-induced cell toxicity and viral replication. Our data suggest that its roles in these two processes can be separated to design effective attenuated viruses for vaccine candidates. 

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3. 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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4. Global Analysis of Baculovirus Autographa californica Multiple Nucleopolyhedrovirus Gene Expression in the Midgut of the Lepidopteran Host Trichoplusia ni

   https://doi.org/10.1128/JVI.01277-18  

   Shrestha, Anita ; Bao, Kan ; Chen, Yun-Ru ; Chen, Wenbo ; Wang, Ping ; Fei, Zhangjun ; Blissard, Gary W. ; Shisler, Joanna L. ( December 2018 , Journal of Virology)

   ABSTRACT The baculovirus Autographa californica multiple nucleopolyhedrovirus (AcMNPV) is a large double-stranded DNA (dsDNA) virus that encodes approximately 156 genes and is highly pathogenic to a variety of larval lepidopteran insects in nature. Oral infection of larval midgut cells is initiated by the occlusion-derived virus (ODV), while secondary infection of other tissues is mediated by the budded virus (BV). Global viral gene expression has been studied in detail in BV-infected cell cultures, but studies of ODV infection in the larval midgut are limited. In this study, we examined expression of the ∼156 AcMNPV genes in Trichoplusia ni midgut tissue using a transcriptomic approach. We analyzed expression profiles of viral genes in the midgut and compared them with profiles from a T. ni cell line (Tnms42). Several viral genes ( p6.9 , orf76 , orf75 , pp31 , Ac-bro , odv-e25 , and odv-ec27 ) had high expression levels in the midgut throughout the infection. Also, the expression of genes associated with occlusion bodies ( polh and p10 ) appeared to be delayed in the midgut in comparison with the cell line. Comparisons of viral gene expression profiles revealed remarkable similarities between the midgut and cell line for most genes, although substantial differences were observed for some viral genes. These included genes associated with high level BV production ( fp-25k ), acceleration of systemic infection ( v-fgf ), and enhancement of viral movement ( arif-1/orf20 ). These differential expression patterns appear to represent specific adaptations for virus infection and transmission through the polarized cells of the lepidopteran midgut. IMPORTANCE Baculoviruses such as AcMNPV are pathogens that are natural regulators of certain insect populations. Baculovirus infections are biphasic, with a primary phase initiated by oral infection of midgut epithelial cells by occlusion-derived virus (ODV) virions and a secondary phase in which other tissues are infected by budded-virus (BV) virions. While AcMNPV infections in cultured cells have been studied extensively, comparatively little is known regarding primary infection in the midgut. In these studies, we identified gene expression patterns associated with ODV-mediated infection of the midgut in Trichoplusia ni and compared those results with prior results from BV-infected cultured cells, which simulate secondary infection. These studies provide a detailed analysis of viral gene expression patterns in the midgut, which likely represent specific viral strategies to (i) overcome or avoid host defenses in the gut and (ii) rapidly move infection from the midgut, into the hemocoel to facilitate systemic infection. 

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5. Host permissiveness to baculovirus influences time‐dependent immune responses and fitness costs

   https://doi.org/10.1111/1744-7917.12755  

   Pan, Qinjian ; Shikano, Ikkei ; Felton, Gary W. ; Liu, Tong-Xian ; Hoover, Kelli ( June 2020 , Insect Science)

   Insects possess specific immune responses to protect themselves from different types of pathogens. Activation of immune cascades can inflict significant developmental costs on the surviving host. To characterize infection kinetics in a surviving host that experiences baculovirus inoculation, it is crucial to determine the timing of immune responses. Here, we investigated time‐dependent immune responses and developmental costs elicited by inoculations from each of two wild‐type baculoviruses,Autographa californicamultiple nucleopolyhedrovirus (AcMNPV) andHelicoverpa zeasingle nucleopolyhedrovirus (HzSNPV), in their common hostH. zea. AsH. zeais a semi‐permissive host of AcMNPV and fully permissive to HzSNPV, we hypothesized there are differential immune responses and fitness costs associated with resisting infection by each virus species. Newly molted 4th‐instar larvae that were inoculated with a low dose (LD₁₅) of either virus showed significantly higher hemolymph FAD‐glucose dehydrogenase (GLD) activities compared to the corresponding control larvae. Hemolymph phenoloxidase (PO) activity, protein concentration and total hemocyte numbers were not increased, but instead were lower than in control larvae at some time points post‐inoculation. Larvae that survived either virus inoculation exhibited reduced pupal weight; survivors inoculated with AcMNPV grew slower than the control larvae, while survivors of HzSNPV pupated earlier than control larvae. Our results highlight the complexity of immune responses and fitness costs associated with combating different baculoviruses.

    

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