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1. Bat genomes illuminate adaptations to viral tolerance and disease resistance

   https://doi.org/10.1038/s41586-024-08471-0  

   Morales, Ariadna E; Dong, Yue; Brown, Thomas; Baid, Kaushal; Kontopoulos, Dimitrios_- Georgios; Gonzalez, Victoria; Huang, Zixia; Ahmed, Alexis-Walid; Bhuinya, Arkadeb; Hilgers, Leon; et al (February 2025, Nature)

   Zoonoses are infectious diseases transmitted from animals to humans. Bats have been suggested to harbour more zoonotic viruses than any other mammalian order1. Infections in bats are largely asymptomatic2,3, indicating limited tissue-damaging inflammation and immunopathology. To investigate the genomic basis of disease resistance, the Bat1K project generated reference-quality genomes of ten bat species, including potential viral reservoirs. Here we describe a systematic analysis covering 115 mammalian genomes that revealed that signatures of selection in immune genes are more prevalent in bats than in other mammalian orders. We found an excess of immune gene adaptations in the ancestral chiropteran branch and in many descending bat lineages, highlighting viral entry and detection factors, and regulators of antiviral and inflammatory responses. ISG15, which is an antiviral gene contributing to hyperinflammation during COVID-19 (refs. 4,5), exhibits key residue changes in rhinolophid and hipposiderid bats. Cellular infection experiments show species- specific antiviral differences and an essential role of protein conjugation in antiviral function of bat ISG15, separate from its role in secretion and inflammation in humans. Furthermore, in contrast to humans, ISG15 in most rhinolophid and hipposiderid bats has strong anti-SARS-CoV-2 activity. Our work reveals molecular mechanisms that contribute to viral tolerance and disease resistance in bats. 

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2. Long-Read Sequencing Reveals Rapid Evolution of Immunity- and Cancer-Related Genes in Bats

   https://doi.org/10.1093/gbe/evad148  

   Scheben, Armin; Mendivil_Ramos, Olivia; Kramer, Melissa; Goodwin, Sara; Oppenheim, Sara; Becker, Daniel J; Schatz, Michael C; Simmons, Nancy B; Siepel, Adam; McCombie, W Richard (September 2023, Genome Biology and Evolution)

   Pfeifer, Susanne (Ed.)

   Abstract Bats are exceptional among mammals for their powered flight, extended lifespans, and robust immune systems and therefore have been of particular interest in comparative genomics. Using the Oxford Nanopore Technologies long-read platform, we sequenced the genomes of two bat species with key phylogenetic positions, the Jamaican fruit bat (Artibeus jamaicensis) and the Mesoamerican mustached bat (Pteronotus mesoamericanus), and carried out a comprehensive comparative genomic analysis with a diverse collection of bats and other mammals. The high-quality, long-read genome assemblies revealed a contraction of interferon (IFN)-α at the immunity-related type I IFN locus in bats, resulting in a shift in relative IFN-ω and IFN-α copy numbers. Contradicting previous hypotheses of constitutive expression of IFN-α being a feature of the bat immune system, three bat species lost all IFN-α genes. This shift to IFN-ω could contribute to the increased viral tolerance that has made bats a common reservoir for viruses that can be transmitted to humans. Antiviral genes stimulated by type I IFNs also showed evidence of rapid evolution, including a lineage-specific duplication of IFN-induced transmembrane genes and positive selection in IFIT2. In addition, 33 tumor suppressors and 6 DNA-repair genes showed signs of positive selection, perhaps contributing to increased longevity and reduced cancer rates in bats. The robust immune systems of bats rely on both bat-wide and lineage-specific evolution in the immune gene repertoire, suggesting diverse immune strategies. Our study provides new genomic resources for bats and sheds new light on the extraordinary molecular evolution in this critically important group of mammals. 

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3. Extensive longevity and DNA virus-driven adaptation in nearctic Myotis bats

   https://doi.org/10.1101/2024.10.10.617725  

   Vazquez, Juan M; Lauterbur, M Elise; Mottaghinia, Saba; Bucci, Melanie; Fraser, Devaughn; Gray-Sandoval, Genavieve; Gaucherand, Léa; Haidar, Zeinab R; Han, Melissa; Kohler, William; et al (October 2024, bioRxiv)

   Abstract The genusMyotisis one of the largest clades of bats, and exhibits some of the most extreme variation in lifespans among mammals alongside unique adaptations to viral tolerance and immune defense. To study the evolution of longevity-associated traits and infectious disease, we generated near-complete genome assemblies and cell lines for 8 closely related species ofMyotis. Using genome-wide screens of positive selection, analyses of structural variation, and functional experiments in primary cell lines, we identify new patterns of adaptation contributing to longevity, cancer resistance, and viral interactions in bats. We find thatMyotisbats have some of the most significant variation in cancer risk across mammals and demonstrate a unique DNA damage response in primary cells of the long-livedM. lucifugus. We also find evidence of abundant adaptation in response to DNA viruses - but not RNA viruses - inMyotisand other bats in sharp contrast with other mammals, potentially contributing to the role of bats as reservoirs of zoonoses. Together, our results demonstrate how genomics and primary cells derived from diverse taxa uncover the molecular bases of extreme adaptations in non-model organisms. 

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4. Adaptive duplication and genetic diversification of protein kinase R contribute to the specificity of bat-virus interactions

   https://doi.org/10.1126/sciadv.add7540  

   Jacquet, Stéphanie; Culbertson, Michelle; Zhang, Chi; El_Filali, Adil; De_La_Myre_Mory, Clément; Pons, Jean-Baptiste; Filippi-Codaccioni, Ondine; Lauterbur, M Elise; Ngoubangoye, Barthélémy; Duhayer, Jeanne; et al (November 2022, Science Advances)

   Several bat species act as asymptomatic reservoirs for many viruses that are highly pathogenic in other mammals. Here, we have characterized the functional diversification of the protein kinase R (PKR), a major antiviral innate defense system. Our data indicate that PKR has evolved under positive selection and has undergone repeated genomic duplications in bats in contrast to all studied mammals that have a single copy of the gene. Functional testing of the relationship between PKR and poxvirus antagonists revealed how an evolutionary conflict with ancient pathogenic poxviruses has shaped a specific bat host-virus interface. We determined that duplicated PKRs of theMyotisspecies have undergone genetic diversification, allowing them to collectively escape from and enhance the control of DNA and RNA viruses. These findings suggest that viral-driven adaptations in PKR contribute to modern virus-bat interactions and may account for bat-specific immunity. 

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5. Large-scale genome sampling reveals unique immunity and metabolic adaptations in bats

   Moreno_Santillán, Diana D; Lama, Tanya M; Gutierrez_Guerrero, Yocelyn T; Brown, Alexis M; Donat, Paul; Zhao, Huabin; Rossiter, Stephen J; Yohe, Laurel R; Potter, Joshua H; Teeling, Emma C; et al (June 2021, Molecular ecology)

   Comprising more than 1,400 species, bats possess adaptations unique among mammals including powered flight, unexpected longevity, and extraordinary immunity. Some of the molecular mechanisms underlying these unique adaptations includes DNA repair, metabolism and immunity. However, analyses have been limited to a few divergent lineages, reducing the scope of inferences on gene family evolution across the Order Chiroptera. We conducted an exhaustive comparative genomic study of 37 bat species, one generated in this study, encompassing a large number of lineages, with a particular emphasis on multi-gene family evolution across immune and metabolic genes. In agreement with previous analyses, we found lineage-specific expansions of the APOBEC3 and MHC-I gene families, and loss of the proinflammatory PYHIN gene family. We inferred more than 1,000 gene losses unique to bats, including genes involved in the regulation of inflammasome pathways such as epithelial defence receptors, the natural killer gene complex and the interferon-gamma induced pathway. Gene set enrichment analyses revealed genes lost in bats are involved in defence response against pathogen-associated molecular patterns and damage-associated molecular patterns. Gene family evolution and selection analyses indicate bats have evolved fundamental functional differences compared to other mammals in both innate and adaptive immune system, with the potential to enhance antiviral immune response while dampening inflammatory signalling. In addition, metabolic genes have experienced repeated expansions related to convergent shifts to plant-based diets. Our analyses support the hypothesis that, in tandem with flight, ancestral bats had evolved a unique set of immune adaptations whose functional implications remain to be explored. 

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