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1. Immune System Promiscuity in Human and Nonhuman Primate Evolution

   https://doi.org/10.13110/humanbiology.90.4.01  

   Brinkworth, Jessica F.; Babbitt, Courtney (January 2018, Human biology)

   null (Ed.)

   Many genes that respond to infection have functions outside of immunity and have been found to be under natural selection. Pathogens may therefore incidentally alter nonimmune physiology through engagement with immune system genes. This raises a logical question of how genetically promiscuous the immune system is, here defined as how heavily cross-referenced the immune system is into other physiological systems. This work examined immune gene promiscuity across physiological systems in primates by assessing the baseline (unperturbed) expression of key tissue and cell types for differences, and primate genomes for signatures of selection. These efforts revealed “immune” gene expression to be cross-referenced extensively in other physiological systems in primates. When immune and nonimmune tissues diverge in expression, the differentially expressed genes at baseline are enriched for cell biological activities not immediately identifiable as immune function based. Individual comparisons of immune and nonimmune tissues in primates revealed low divergence in gene expression between tissues, with the exception of whole blood. Immune gene promiscuity increases over evolutionary time, with hominoids exhibiting the most cross-referencing of such genes among primates. An assessment of genetic sequences also found positive selection in the coding regions of differentially expressed genes between tissues functionally associated with immunity. This suggests that, with increasing promiscuity, divergent gene expression between the immune system and other physiological systems tends to be adaptive and enriched for immune functions in hominoids. 

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2. Differential gene expression in response to fungal pathogen exposure in the aquatic invertebrate, Daphnia dentifera

   https://doi.org/10.1002/ece3.10354  

   Terrill Sondag, Emily_E; Stewart Merrill, Tara_E; Drnevich, Jenny; Holmes, Jessica_R; Fischer, Eva_K; Cáceres, Carla_E; Strickland, Lynette_R (July 2023, Ecology and Evolution)

   Abstract While vertebrate immune systems are appreciated for their complexity and adaptability, invertebrate immunity is often considered to be less complex. However, immune responses in many invertebrates likely involve sophisticated processes. Interactions between the crustacean hostDaphnia dentiferaand its fungal pathogenMetschnikowia bicuspidataprovide an excellent model for exploring the mechanisms underlying crustacean immunity. To explore the genomic basis of immunity inDaphnia, we used RNA‐sequencing technology to quantify differential gene expression between individuals of a single host genotype exposed or unexposed toM. bicuspidataover 24 h. Transcriptomic analyses showed that the number of differentially expressed genes between the control (unexposed) and experimental (exposed) groups increased over time. Gene ontology enrichment analysis revealed that differentially expressed genes were enriched for immune‐related molecules and processes, such as cuticle development, prostaglandin, and defense response processes. Our findings provide a suite of immunologically relevant genes and suggest the presence of a rapidly upregulated immune response involving the cuticle inDaphnia. Studies involving gene expression responses to pathogen exposure shine a light on the processes occurring during the course of infection. By leveraging knowledge on the genetic basis for immunity, immune mechanisms can be more thoroughly understood to refine our understanding of disease spread within invertebrate populations. 

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3. Immune Gene Expression Covaries with Gut Microbiome Composition in Stickleback

   https://doi.org/10.1128/mBio.00145-21  

   Fuess, Lauren E.; den Haan, Stijn; Ling, Fei; Weber, Jesse N.; Steinel, Natalie C.; Bolnick, Daniel I. (January 2021, mBio)

   Rawls, John F.; McFall-Ngai, Margaret J. (Ed.)

   ABSTRACT Commensal microbial communities have immense effects on their vertebrate hosts, contributing to a number of physiological functions, as well as host fitness. In particular, host immunity is strongly linked to microbiota composition through poorly understood bi-directional links. Gene expression may be a potential mediator of these links between microbial communities and host function. However, few studies have investigated connections between microbiota composition and expression of host immune genes in complex systems. Here, we leverage a large study of laboratory-raised fish from the species Gasterosteus aculeatus (three-spined stickleback) to document correlations between gene expression and microbiome composition. First, we examined correlations between microbiome alpha diversity and gene expression. Our results demonstrate robust positive associations between microbial alpha diversity and expression of host immune genes. Next, we examined correlations between host gene expression and abundance of microbial taxa. We identified 15 microbial families that were highly correlated with host gene expression. These families were all tightly correlated with host expression of immune genes and processes, falling into one of three categories—those positively correlated, negatively correlated, and neutrally related to immune processes. Furthermore, we highlight several important immune processes that are commonly associated with the abundance of these taxa, including both macrophage and B cell functions. Further functional characterization of microbial taxa will help disentangle the mechanisms of the correlations described here. In sum, our study supports prevailing hypotheses of intimate links between host immunity and gut microbiome composition. IMPORTANCE Here, we document associations between host gene expression and gut microbiome composition in a nonmammalian vertebrate species. We highlight associations between expression of immune genes and both microbiome diversity and abundance of specific microbial taxa. These findings support other findings from model systems which have suggested that gut microbiome composition and host immunity are intimately linked. Furthermore, we demonstrate that these correlations are truly systemic; the gene expression detailed here was collected from an important fish immune organ (the head kidney) that is anatomically distant from the gut. This emphasizes the systemic impact of connections between gut microbiota and host immune function. Our work is a significant advancement in the understanding of immune-microbiome links in nonmodel, natural systems. 

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4. Human Gene Age Dating Reveals an Early and Rapid Evolutionary Construction of the Adaptive Immune System

   https://doi.org/10.1093/gbe/evad081  

   Zhang, Li; Park, Jonathan J; Dong, Matthew B; Arsala, Deanna; Xia, Shengqian; Chen, Jianhai; Sosa, Dylan; Atlas, Jared E; Long, Manyuan; Chen, Sidi (May 2023, Genome Biology and Evolution)

   Alba, Mar (Ed.)

   Abstract T cells are a type of white blood cell that play a critical role in the immune response against foreign pathogens through a process called T cell adaptive immunity (TCAI). However, the evolution of the genes and nucleotide sequences involved in TCAI is not well understood. To investigate this, we performed comparative studies of gene annotations and genome assemblies of 28 vertebrate species and identified sets of human genes that are involved in TCAI, carcinogenesis, and aging. We found that these gene sets share interaction pathways, which may have contributed to the evolution of longevity in the vertebrate lineage leading to humans. Our human gene age dating analyses revealed that there was rapid origination of genes with TCAI-related functions prior to the Cretaceous eutherian radiation and these new genes mainly encode negative regulators. We identified no new TCAI-related genes after the divergence of placental mammals, but we did detect an extensive number of amino acid substitutions under strong positive selection in recently evolved human immunity genes suggesting they are coevolving with adaptive immunity. More specifically, we observed that antigen processing and presentation and checkpoint genes are significantly enriched among new genes evolving under positive selection. These observations reveal evolutionary processes of TCAI that were associated with rapid gene duplication in the early stages of vertebrates and subsequent sequence changes in TCAI-related genes. The analysis of vertebrate genomes provides evidence that a "big bang" of adaptive immune genes occurred 300-500 million years ago. These processes together suggest an early genetic construction of the vertebrate immune system and subsequent molecular adaptation to diverse antigens. 

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5. Detection of Neanderthal Adaptively Introgressed Genetic Variants That Modulate Reporter Gene Expression in Human Immune Cells

   https://doi.org/10.1093/molbev/msab304  

   Jagoda, Evelyn; Xue, James R; Reilly, Steven K; Dannemann, Michael; Racimo, Fernando; Huerta-Sanchez, Emilia; Sankararaman, Sriram; Kelso, Janet; Pagani, Luca; Sabeti, Pardis C; et al (January 2022, Molecular Biology and Evolution)

   Falush, Daniel (Ed.)

   Abstract Although some variation introgressed from Neanderthals has undergone selective sweeps, little is known about its functional significance. We used a Massively Parallel Reporter Assay (MPRA) to assay 5,353 high-frequency introgressed variants for their ability to modulate the gene expression within 170 bp of endogenous sequence. We identified 2,548 variants in active putative cis-regulatory elements (CREs) and 292 expression-modulating variants (emVars). These emVars are predicted to alter the binding motifs of important immune transcription factors, are enriched for associations with neutrophil and white blood cell count, and are associated with the expression of genes that function in innate immune pathways including inflammatory response and antiviral defense. We combined the MPRA data with other data sets to identify strong candidates to be driver variants of positive selection including an emVar that may contribute to protection against severe COVID-19 response. We endogenously deleted two CREs containing expression-modulation variants linked to immune function, rs11624425 and rs80317430, identifying their primary genic targets as ELMSAN1, and PAN2 and STAT2, respectively, three genes differentially expressed during influenza infection. Overall, we present the first database of experimentally identified expression-modulating Neanderthal-introgressed alleles contributing to potential immune response in modern humans. 

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