Your search keyword '"biotic associations"' showing total 176 results

1. A global assessment of environmental and climate influences on wetland macroinvertebrate community structure and function.

Author

Epele, Luis B., Williams‐Subiza, Emilio A., Bird, Matthew S., Boissezon, Aurelie, Boix, Dani, Demierre, Eliane, Fair, Conor G., García, Patricia E., Gascón, Stephanie, Grech, Marta G., Greig, Hamish S., Jeffries, Michael, Kneitel, Jamie M., Loskutova, Olga, Maltchik, Leonardo, Manzo, Luz M., Mataloni, Gabriela, McLean, Kyle, Mlambo, Musa C., and Oertli, Beat

Subjects

*WETLANDS, *SEASONAL temperature variations, *SPECIES distribution, *FRESHWATER biodiversity, *CLIMATE change, *FUNCTIONAL groups

Abstract

Estimating organisms' responses to environmental variables and taxon associations across broad spatial scales is vital for predicting their responses to climate change. Macroinvertebrates play a major role in wetland processes, but studies simultaneously exploring both community structure and community trait responses to environmental gradients are still lacking. We compiled a global dataset (six continents) from 756 depressional wetlands, including the occurrence of 96 macroinvertebrate families, their phylogenetic tree, and 19 biological traits. Using Bayesian hierarchical joint species distribution models (JSDMs), we estimated macroinvertebrate associations and compared the influences of local and climatic predictors on both individual macroinvertebrate families and their traits. While macroinvertebrate families were mainly related to broad‐scale factors (maximum temperature and precipitation seasonality), macroinvertebrate traits were strongly related to local wetland hydroperiod. Interestingly, macroinvertebrate families and traits both showed positive and negative associations to the same environmental variables. As expected, many macroinvertebrate family occurrences were positively associated with temperature, but a few showed the opposite pattern and were found in cooler or montane regions. We also found that wetland macroinvertebrate communities would likely be affected by changing climates through alterations in traits related to precipitation seasonality, temperature seasonality, and wetland area. Temperature increases may negatively affect collector and shredder functional groups. A decrease in precipitation could lead to reductions in wetland area benefiting drought‐tolerant macroinvertebrates, but it may negatively affect macroinvertebrates lacking those adaptations. Wetland processes may be compromised through broad‐scale environmental changes altering macroinvertebrate family distributions and local hydroperiod shifts altering organism traits. Our complementary family‐based and trait‐based approaches elucidate the complex effects that climate change may produce on wetland ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

2. Co‐occurrence patterns in a steppe bird community: insights into the role of dominance and competition.

Author

Barrero, Adrián, Ovaskainen, Otso, Traba, Juan, and Gómez‐Catasús, Julia

Subjects

*BIRD communities, *STEPPES, *COMPETITION (Biology), *SPECIES distribution, *STOCHASTIC processes, *HABITATS, *PASSERIFORMES

Abstract

Spatial co‐occurrence patterns are determined by environmental factors, such as food availability or habitat characteristics and by biotic associations. When resources are limited, competition which implies a dominant hierarchy can shape species assemblage. Here, we study space and time co‐occurrence of steppe passerines during the breeding season in a natural steppe habitat, its modulation by environmental filtering, potential biotic interactions and random processes. We applied the joint species distribution model of hierarchical modelling of species community (HMSC) to data on species presence–absence and environmental, temporal and spatial covariates acquired from seven plots in a natural steppe in central Spain during two consecutive years. Our results reveal the patterns of bird species co‐occurrence and suggest that this assemblage might be competitively structured. The assemblage appears to be configured around one dominant species, the Eurasian skylark, which establishes principally negative associations with many of the coexistent species. Our results contribute to the understanding of how competition and dominance processes, together with ecological constraints and other biotic associations, shape bird assemblages. [ABSTRACT FROM AUTHOR]

Published

2023

3. Tropical forest type influences community assembly processes in arbuscular mycorrhizal fungi.

Author

Maciel Rabelo Pereira, Camilla, López‐García, Álvaro, da Silva, Danielle Karla Alves, Costa Maia, Leonor, Guldberg Frøslev, Tobias, Kjøller, Rasmus, and Rosendahl, Søren

Subjects

*RAIN forests, *TROPICAL forests, *VESICULAR-arbuscular mycorrhizas, *SOCIAL influence, *STOCHASTIC processes, *FUNGAL communities

Abstract

Aim: Plant community assembly in tropical rain forest has been shown to be largely governed by stochastic processes, but as arbuscular mycorrhizal (AM) fungi display limited host preference, they may not follow the same stochastic assembly pattern. Here, we determined the relative importance of environmental and spatial drivers responsible for the community assembly process of AM fungi in two types of tropical rain forest: semideciduous rain forest and dense ombrophilous forests. Location: Atlantic rain forest in north‐eastern Brazil, South America. Taxon: Arbuscular mycorrhizal fungi (Glomeromycotina). Methods: We collected root samples from eight protected areas of Atlantic forest along a 700 km transect in north‐eastern Brazil. We measured the relative importance of deterministic and stochastic processes by redundancy analysis (RDA) and variation partitioning in comparison with null expectations using ad hoc generated neutral communities. Furthermore, we accessed species associations from co‐occurrence data, at different scales using a Bayesian approach of Hierarchical Modelling of Species Communities. Results: Overall, the extent to which stochastic and deterministic processes affected community assembly depended on the forest type and the spatial scale. Specifically, we found that abiotic and biotic predictors of AM fungal community assemblages are related to environmental homogeneity in tropical rain forests. Main conclusions: The results of the study show that dynamics in community assembly was clearly different between the two forest types, and that the difference most likely is due to differences in responses to environmental variables. [ABSTRACT FROM AUTHOR]

Published

2020

4. Co‐occurrence patterns in a steppe bird community: insights into the role of dominance and competition

Author

Adrián Barrero, Otso Ovaskainen, Juan Traba, Julia Gómez‐Catasús, and UAM. Departamento de Ecología

Subjects

ecological niches, vuorovaikutus, ympäristö, steppe passerines, ympäristötekijät, biotic associations, Steppe passerines, Medio Ambiente, Species co-occurrence, species co-occurrence, elinympäristö, linnut, lajit, Biotic associations, luonnonsuojelu, Dominant hierarchy, Resource partitioning, resource partitioning, Ecology, Evolution, Behavior and Systematics, dominant hierarchy, Ecological niches

Abstract

Spatial co-occurrence patterns are determined by environmental factors, such as food availability or habitat characteristics and by biotic associations. When resources are limited, competition which implies a dominant hierarchy can shape species assemblage. Here, we study space and time co-occurrence of steppe passerines during the breeding season in a natural steppe habitat, its modulation by environmental filtering, potential biotic interactions and random processes. We applied the joint species distribution model of hierarchical modelling of species community (HMSC) to data on species presence–absence and environmental, temporal and spatial covariates acquired from seven plots in a natural steppe in central Spain during two consecutive years. Our results reveal the patterns of bird species co-occurrence and suggest that this assemblage might be competitively structured. The assemblage appears to be configured around one dominant species, the Eurasian skylark, which establishes principally negative associations with many of the coexistent species. Our results contribute to the understanding of how competition and dominance processes, together with ecological constraints and other biotic associations, shape bird assemblages, Academy of Finland - 309581. European Commission - LIFE Connect Ricotí project LIFE20-NAT/ES/000133, LIFE Ricotí project LIFE15-NAT-ES-000802. European Commission - Horizon 2020 Framework Programme, H2020 Excellent Science, H2020 European Research Council, 856506. Jane ja Aatos Erkon Säätiö - Research Council of Norway through its Centres. Remedinal REMEDINAL-3 from CAM

Published

2023

5. Vertical Distribution of Microbial Eukaryotes From Surface to the Hadal Zone of the Mariana Trench

Author

Zhimeng Xu, Min Wang, Wenxue Wu, Yifan Li, Qian Liu, Yuye Han, Yong Jiang, Hongbing Shao, Andrew McMinn, and Hongbin Liu

Subjects

microbial eukaryotes, size fraction, diversity, community structure, hadal zone, biotic associations, Microbiology, QR1-502

Abstract

Marine microbial eukaryotes are ubiquitous, comprised of phylogenetically diverse groups and play key roles in microbial food webs and global biogeochemical cycling. However, their vertical distribution in the deep sea has received little attention. In this study, we investigated the composition and diversity of the eukaryotes of both 0.2–3 μm and >3 μm size fractions from the surface to the hadal zone (8727 m) of the Mariana Trench using Illumina MiSeq sequencing for the 18S rDNA. The microbial eukaryotic community structure differed substantially across size fractions and depths. Operational taxonomic unit (OTU) richness in the >3 μm fraction was higher than that in the 0.2–3 μm fraction at the same depth. For the 0.2–3 μm fraction, sequences of Retaria (Rhizaria) were most abundant in the surface water (53.5%). Chrysophyceae (Stramenopiles) sequences dominated mostly in the samples from water depths below 1795 m. For the >3 μm fraction, sequences of Dinophyceae (Alveolata) were most abundant in surface waters (49.3%) and remained a significant proportion of total sequences at greater depths (9.8%, on average). Retaria sequences were abundant in samples of depths ≥1000 m. Amoebozoa and Apusozoa sequences were enriched in the hadal sample, comprising 38 and 20.4% of total sequences, respectively. Fungi (Opisthokonta) sequences were most abundant at 1759 m in both size fractions. Strong positive associations were found between Syndiniales (mainly MALV-I and MALV-II) and Retaria while negative associations were shown between MALV-II and Fungi in a co-occurrence analysis. This study compared the community structure of microbial eukaryotes in different zones in the deep sea and identified a distinct hadal community in the larger size fraction, suggesting the uniqueness of the eukaryotes in the biosphere in the Mariana Trench.

Published

2018

6. Vertical Distribution of Microbial Eukaryotes From Surface to the Hadal Zone of the Mariana Trench.

Author

Xu, Zhimeng, Wang, Min, Wu, Wenxue, Li, Yifan, Liu, Qian, Han, Yuye, Jiang, Yong, Shao, Hongbing, McMinn, Andrew, and Liu, Hongbin

Subjects

COMMUNITY organization, MARINE microbiology, MARIANA Trench

Abstract

Marine microbial eukaryotes are ubiquitous, comprised of phylogenetically diverse groups and play key roles in microbial food webs and global biogeochemical cycling. However, their vertical distribution in the deep sea has received little attention. In this study, we investigated the composition and diversity of the eukaryotes of both 0.2–3 μm and >3 μm size fractions from the surface to the hadal zone (8727 m) of the Mariana Trench using Illumina MiSeq sequencing for the 18S rDNA. The microbial eukaryotic community structure differed substantially across size fractions and depths. Operational taxonomic unit (OTU) richness in the >3 μm fraction was higher than that in the 0.2–3 μm fraction at the same depth. For the 0.2–3 μm fraction, sequences of Retaria (Rhizaria) were most abundant in the surface water (53.5%). Chrysophyceae (Stramenopiles) sequences dominated mostly in the samples from water depths below 1795 m. For the >3 μm fraction, sequences of Dinophyceae (Alveolata) were most abundant in surface waters (49.3%) and remained a significant proportion of total sequences at greater depths (9.8%, on average). Retaria sequences were abundant in samples of depths ≥1000 m. Amoebozoa and Apusozoa sequences were enriched in the hadal sample, comprising 38 and 20.4% of total sequences, respectively. Fungi (Opisthokonta) sequences were most abundant at 1759 m in both size fractions. Strong positive associations were found between Syndiniales (mainly MALV-I and MALV-II) and Retaria while negative associations were shown between MALV-II and Fungi in a co-occurrence analysis. This study compared the community structure of microbial eukaryotes in different zones in the deep sea and identified a distinct hadal community in the larger size fraction, suggesting the uniqueness of the eukaryotes in the biosphere in the Mariana Trench. [ABSTRACT FROM AUTHOR]

Published

2018

7. 🐝 interacts with 🌼

Author

Seltmann, Katja

Subjects

species interactions, ecological informatics, GloBI, pollination, host, biology, biotic associations, parasite, global biotic interactions, ecology, biodiversity informatics, biodiversity

Abstract

Presented at the 5th Annual Digital Data in Biodiversity Research Conference on 8 June 2021 hosted online by the Florida Museum of Natural History. https://www.idigbio.org/wiki/index.php/5th_Annual_Digital_Data_Conference,_Florida_Museum_of_Natural_History Abstract Organisms living in the same community directly or indirectly influence one another. It is these biological interactions that make natural history interesting. A tick becomes medically important when we know it is a host for Borrelia, the bacteria that manifests as Lyme disease in humans. Bee orchids are strangely more beautiful when we know they practice sexually deceptive pollination tricks on insects. Global Climate change becomes apocalyptic when we understand it affects entire ecosystems, rather than just a few species. A wealth of information about how organisms interact exists in museum collections, scientific publications, specialized databases, and other available datasets, but how do we unlock the data? This publication includes: slides / seltmann-bee-interacts-with-flower-2021-06-08.pdf hash://sha256/8f763cbca948d575bf969bc2720e6537810ac50e2132a828f2d2dca714f47ea7 recording / seltmann-bee-interacts-with-flower-2021-06-08.mp4 hash://sha256/3dee023544645733b6bb55f52295148a213a934bbc4a0ac0ea047a9d19c0af37 Acknowledgements / Funding A special thanks to the thousands of (community) scientists and their institutions for openly sharing their biotic interaction datasets. Also, thanks for thousands of software engineers for providing high quality open source software on which Global Biotic Interactons (GloBI) is built. Work presented was in part supported by the Terrestrial Parasite Tracker project through the National Science Foundation award “Collaborative Research: Digitization TCN: Digitizing collections to trace parasite-host associations and predict the spread of vector-borne disease,” Award numbers DBI:1901932 and DBI:1901926, and the California Phenology Project "Collaborative Research: Digitization TCN: Capturing California's Flowers: using digital images to investigate phenological change in a biodiversity hotspot," Award number DBI:1802181 . Thanks to iDigBio helping to organize this conference, the Florida Museum of Natural History for hosting, and to all the GloBI partners for their support.

Published

2021

8. Unveiling the Origin and Transmission of 2019-nCoV

Author

Yifei Xu and Plazi

Subjects

Disease Outbreaks, human-to-human transmission, Chiroptera, Zoonoses, Viridae, 0303 health sciences, Transmission (medicine), biotic associations, public health, corona viruses, covid, Infectious Diseases, Severe acute respiratory syndrome-related coronavirus, covid-19, TheoryofComputation_LOGICSANDMEANINGSOFPROGRAMS, Spike Glycoprotein, Coronavirus, 2019-nCoV, Middle East Respiratory Syndrome Coronavirus, Ethnology, Coronavirus Infections, CETAF-taskforce, Microbiology (medical), 2019-20 coronavirus outbreak, medicine.medical_specialty, Livestock, Coronavirus disease 2019 (COVID-19), Coronaviridae, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Pneumonia, Viral, interspecies transmission, Biology, Melia azedarach, Microbiology, Article, virus-host, Interspecies transmission, 03 medical and health sciences, Betacoronavirus, pathogen-host, Virology, medicine, Animals, Humans, pneumonia, biotic relations, 030304 developmental biology, ComputingMilieux_THECOMPUTINGPROFESSION, 030306 microbiology, SARS-CoV-2, Public health, pathogens, biotic interaction, TheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGES

Abstract

A novel coronavirus has caused thousands of human infections in China since December 2019, raising a global public health concern. Recent studies (Huang et al., Chan et al., and Zhou et al.) have provided timely insights into its origin and ability to spread among humans, informing infection prevention and control practices.

Published

2020

9. Evolutionary origins of the SARS-CoV-2 sarbecovirus lineage responsible for the COVID-19 pandemic

Author

Andrew Rambaut, Tommy Tsan-Yuk Lam, Blair W. Perry, Philippe Lemey, Todd A. Castoe, Maciej F. Boni, Xiaowei Jiang, David Robertson, and Plazi

Subjects

Microbiology (medical), Coronavirus disease 2019 (COVID-19), Coronaviridae, Lineage (evolution), viruses, Immunology, Biology, medicine.disease_cause, Genome, Applied Microbiology and Biotechnology, Microbiology, Virus, Divergence, virus-host, 03 medical and health sciences, Phylogenetics, Molecular evolution, pathogen-host, Genetic variation, Pandemic, medicine, Genetics, biotic relations, Viridae, skin and connective tissue diseases, 030304 developmental biology, Coronavirus, Genetic diversity, 0303 health sciences, Phylogenetic tree, 030306 microbiology, biotic associations, fungi, corona viruses, virus diseases, covid, pathogens, Cell Biology, biology.organism_classification, biotic interaction, respiratory tract diseases, covid-19, Evolutionary biology, Viral evolution, Subgenus, Betacoronavirus, CETAF-taskforce

Abstract

There are outstanding evolutionary questions on the recent emergence of coronavirus SARS-CoV-2/hCoV-19 in Hubei province that caused the COVID-19 pandemic, including (1) the relationship of the new virus to the SARS-related coronaviruses, (2) the role of bats as a reservoir species, (3) the potential role of other mammals in the emergence event, and (4) the role of recombination in viral emergence. Here, we address these questions and find that the sarbecoviruses – the viral subgenus responsible for the emergence of SARS-CoV and SARS-CoV-2 – exhibit frequent recombination, but the SARS-CoV-2 lineage itself is not a recombinant of any viruses detected to date. In order to employ phylogenetic methods to date the divergence events between SARS-CoV-2 and the bat sarbecovirus reservoir, recombinant regions of a 68-genome sarbecovirus alignment were removed with three independent methods. Bayesian evolutionary rate and divergence date estimates were consistent for all three recombination-free alignments and robust to two different prior specifications based on HCoV-OC43 and MERS-CoV evolutionary rates. Divergence dates between SARS-CoV-2 and the bat sarbecovirus reservoir were estimated as 1948 (95% HPD: 1879-1999), 1969 (95% HPD: 1930-2000), and 1982 (95% HPD: 1948-2009). Despite intensified characterization of sarbecoviruses since SARS, the lineage giving rise to SARS-CoV-2 has been circulating unnoticed for decades in bats and been transmitted to other hosts such as pangolins. The occurrence of a third significant coronavirus emergence in 17 years together with the high prevalence and virus diversity in bats implies that these viruses are likely to cross species boundaries again.In BriefThe Betacoronavirus SARS-CoV-2 is a member of the sarbecovirus subgenus which shows frequent recombination in its evolutionary history. We characterize the extent of this genetic exchange and identify non-recombining regions of the sarbecovirus genome using three independent methods to remove the effects of recombination. Using these non-recombining genome regions and prior information on coronavirus evolutionary rates, we obtain estimates from three approaches that the most likely divergence date of SARS-CoV-2 from its most closely related available bat sequences ranges from 1948 to 1982.Key PointsRaTG13 is the closest available bat virus to SARS-CoV-2; a sub-lineage of these bat viruses is able to infect humans. Two sister lineages of the RaTG13/SARS-CoV-2 lineage infect Malayan pangolins.The sarbecoviruses show a pattern of deep recombination events, indicating that there are high levels of co-infection in horseshoe bats and that the viral pool can generate novel allele combinations and substantial genetic diversity; the sarbecoviruses are efficient ‘explorers’ of phenotype space.The SARS-CoV-2 lineage is not a recent recombinant, at least not involving any of the bat or pangolin viruses sampled to date.Non-recombinant regions of the sarbecoviruses can be identified, allowing for phylogenetic inference and dating to be performed. We constructed three such regions using different methods.We estimate that RaTG13 and SARS-CoV-2 diverged 40 to 70 years ago. There is a diverse unsampled reservoir of generalist viruses established in horseshoe bats.While an intermediate host responsible for the zoonotic event cannot be ruled out, the relevant evolution for spillover to humans very likely occurred in horseshoe bats.

Published

2020

10. Cross-species transmission of the newly identified coronavirus 2019-nCoV

Author

Ji, Wei, Wang, Wei, Zhao, Xiaofang, Zai, Junjie, Li, Xingguang, and Plazi

Subjects

Coronaviridae, phylogenetic analysis, biotic associations, codon usage bias, corona viruses, covid, pathogens, cross-species transmission, biotic interaction, recombination, virus-host, covid-19, pathogen-host, 2019-nCoV, biotic relations, Viridae, CETAF-taskforce

Abstract

The current outbreak of viral pneumonia in the city of Wuhan, China, was caused by a novel coronavirus designated 2019-nCoV by the World Health Organization, as determined by sequencing the viral RNA genome. Many initial patients were exposed to wildlife animals at the Huanan seafood wholesale market, where poultry, snake, bats, and other farm animals were also sold. To investigate possible virus reservoir, we have carried out comprehensive sequence analysis and comparison in conjunction with relative synonymous codon usage (RSCU) bias among different animal species based on the 2019-nCoV sequence. Results obtained from our analyses suggest that the 2019-nCoV may appear to be a recombinant virus between the bat coronavirus and an origin-unknown coronavirus. The recombination may occurred within the viral spike glycoprotein, which recognizes a cell surface receptor. Additionally, our findings suggest that 2019-nCoV has most similar genetic information with bat coronovirus and most similar codon usage bias with snake. Taken together, our results suggest that homologous recombination may occur and contribute to the 2019-nCoV cross-species transmission.

Published

2020

11. Making Parasite-Host Associations Visible using Global Biotic Interactions

Author

Jennifer M. Zaspel, Katja C. Seltmann, Kathryn Sullivan, and Jorrit H. Poelen

Subjects

biotic associations, biodiversity informatics, ecological informatics, natural history collections, parasites, host, vectors, disease, natural history collections, specimen digitization, vertebrate parasite, Ecology, Host (biology), biotic associations, Parasite hosting, General Medicine, Biology, Biodiversity informatics, Terrestrial Parasite Tracker

Abstract

Publication includes abstract, poster, audio, and audio transcription related to: Biodiversity Digitization: Celebrating a decade of progress Virtual Event 22-23 September, 2021 Organized by iDigBio, Smithsonian's National Museum of Natural History, and GBIF. https://www.idigbio.org/content/biodiversity-digitization-2021 Abstract The Terrestrial Parasite Tracker (TPT) Network digitizes and aggregates arthropod parasite collections to build an easily accessible, comprehensive database of parasite-host associations and vector distributions. TPT is working to digitally provide information on parasite collections by providing research-ready data and images from 1.2+ million parasite specimens, which will be accessible to scientists, educators, wildlife managers, and policy makers worldwide. Our network is providing needed baseline information for research and management of the ecological interactions among parasites, pathogens, and their hosts in North America (including the U.S. & territories) through Global Biotic Interactions (GloBI) data integration, and data review services. Global Biotic Interactions (GloBI) is an open data integration platform that continually indexes existing openly available species interaction datasets, literature, and specimen records using open source software. Since its inception in 2013, GloBI has grown to be the largest registry of biotic interaction claims, indexing over 8 million interaction claims sourced from hundreds of data sources and citing millions of references. For TPT, GloBI is used to keep track of availability of valuable evidence-based parasite-host interaction claims sourced from participating Natural History Collections as well as facilitating in-depth data reviews to help improve, and sometimes align, data exchange protocols (aka, integration profiles). TPT has contributed 500,000 biotic interaction records to GloBI, which will organize, standardize and integrate our records into existing species interaction datasets accessible via web tools and machines. Here, we provide examples of various parasite specimens with label data, demonstrate how biotic association data will be captured in different platforms, and provide a standard glossary of association terms. Over the course of the project, TPT and GloBI will continue to work with data providers to discover biotic interactions in their collections and refine standards specific to their data sharing workflows., The creation of this poster and associated digital artifacts was made possible by the National Science Foundation award "Collaborative Research: Digitization TCN: Digitizing collections to trace parasite-host associations and predict the spread of vector-borne disease," Award numbers DBI:1901932 and DBI:1901926.

Published

2020

12. Strangles, convalescent Streptococcus equi subspecies equi M antibody titers, and presence of complications

Author

Jennifer K. Morrow, Maureen E. Sutter, John F. Timoney, Laurie A. Beard, A. C. Trimble, K. M. Delph, and Plazi

Subjects

0301 basic medicine, Male, Standard Article, 0403 veterinary science, Streptococcus equi subspecies equi, Risk Factors, Medicine, Viridae, Strangles, lcsh:Veterinary medicine, biotic associations, corona viruses, Bacterial, Antibody titer, covid, 04 agricultural and veterinary sciences, Antibodies, Bacterial, Standard Articles, Titer, covid-19, strangles complications, Female, CETAF-taskforce, Coronaviridae, 040301 veterinary sciences, Myeloma protein, Secondary infection, Infectious Disease, Antibodies, virus-host, 03 medical and health sciences, Guttural pouch, pathogen-host, Streptococcal Infections, Animals, Streptococcus equi, biotic relations, Horses, strangles carrier, General Veterinary, business.industry, SeM antibody titer, Outbreak, pathogens, biotic interaction, 030104 developmental biology, Immunology, lcsh:SF600-1100, Horse Diseases, EQUID, business

Abstract

BACKGROUND: Streptococcus equi subspecies equi infection elicits M protein antibody titers in equids. Interpretation of titers is not generally accepted. HYPOTHESIS: The magnitude of S. equi M protein (SeM) antibody titer after infection (titer ≥1:12 800) will be useful to monitor for the presence of complications or the risk of development of complications. ANIMALS: Forty-eight horses on 1 farm involved in strangles outbreak. METHODS: Clinical and observational study. S. equi M protein antibody titers were measured on all horses 8 weeks after infection and select horses 12 and 28 weeks after infection. Horses were categorized: no disease, uncomplicated case, persistent guttural pouch (GP) infection, or complicated cases (metastatic abscesses, purpura hemorrhagica, secondary infections, and dysphagia). Category was compared to titer. RESULTS: Twenty-eight of 48 (58\%) developed clinical signs of S. equi infection. Of those, 11 (39\%) had uncomplicated strangles, 9 (21\%) had persistent GP infection, 5 (18\%) were complicated cases, and 3 (11\%) had both persistent GP infection and complications. Thirty-three percent of horses (16 of 48) had SeM antibody titers ≥1:12 800 eight weeks after infection. Of horses with titers ≥1:12 800, 6 of 16 had evidence of complications. Of complicated cases, 6 of 8 had titers ≥1:12 800. In this outbreak, the sensitivity (75\%; 95\% CI [confidence interval] 45-105) for a SeM antibody titer ≥1:12 800 detecting complications was higher than the specificity (43\%; 95\% CI 23-64). CONCLUSIONS AND CLINICAL IMPORTANCE: This outbreak demonstrates that SeM antibody titers can be increased after infection (≥1:12 800) in the absence of complications of strangles.

Published

2018

13. Adaptive Evolution of MERS-CoV to Species Variation in DPP4

Author

Kerri L. Miazgowicz, Neeltje van Doremalen, Luis Enjuanes, Rebekah McMinn, Vincent J. Munster, Aaron B. Carmody, Stephanie N. Seifert, Michael Letko, Isabel Sola, Plazi, National Institute of Allergy and Infectious Diseases (US), and National Institutes of Health (US)

Subjects

0301 basic medicine, Models, Molecular, Protein Conformation, alpha-Helical, viruses, Species barrier, Gene Expression, Spike, medicine.disease_cause, Biological Coevolution, Zoonosis, Chiroptera, Chlorocebus aethiops, Viridae, lcsh:QH301-705.5, Coronavirus, Genetics, biotic associations, corona viruses, covid, Adaptation, Physiological, 3. Good health, covid-19, TheoryofComputation_LOGICSANDMEANINGSOFPROGRAMS, Host-Pathogen Interactions, Spike Glycoprotein, Coronavirus, Middle East Respiratory Syndrome Coronavirus, Receptors, Virus, CETAF-taskforce, Protein Binding, Middle East respiratory syndrome coronavirus, Coronaviridae, Evolution, Dipeptidyl Peptidase 4, 030106 microbiology, Biology, DPP4, Desmodus rotundus, General Biochemistry, Genetics and Molecular Biology, Virus, Article, Host Specificity, virus-host, 03 medical and health sciences, Cricetulus, Viral entry, pathogen-host, MERS, medicine, Animals, Humans, Protein Interaction Domains and Motifs, biotic relations, Amino Acid Sequence, Adaptation, Vero Cells, Dipeptidyl peptidase-4, Binding Sites, ComputingMilieux_THECOMPUTINGPROFESSION, Sequence Homology, Amino Acid, Host (biology), Bat, pathogens, Virus Internalization, biology.organism_classification, biotic interaction, 030104 developmental biology, TheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGES, lcsh:Biology (General), Dipeptidyl peptidase IV, Mutation, Protein Conformation, beta-Strand, Sequence Alignment

Abstract

Summary Middle East Respiratory Syndrome Coronavirus (MERS-CoV) likely originated in bats and passed to humans through dromedary camels; however, the genetic mechanisms underlying cross-species adaptation remain poorly understood. Variation in the host receptor, dipeptidyl peptidase 4 (DPP4), can block the interaction with the MERS-CoV spike protein and form a species barrier to infection. To better understand the species adaptability of MERS-CoV, we identified a suboptimal species-derived variant of DPP4 to study viral adaption. Passaging virus on cells expressing this DPP4 variant led to accumulation of mutations in the viral spike which increased replication. Parallel passages revealed distinct paths of viral adaptation to the same DPP4 variant. Structural analysis and functional assays showed that these mutations enhanced viral entry with suboptimal DPP4 by altering the surface charge of spike. These findings demonstrate that MERS-CoV spike can utilize multiple paths to rapidly adapt to novel species variation in DPP4., Graphical Abstract, Highlights • MERS-CoV infected cells expressing DPP4 from 16 bat species • MERS-CoV spike rapidly adapted to species variation in DPP4 • Viral adaptations modified the surface charge of viral spike • Different routes of spike adaptation enhanced entry with the same DPP4 variant, MERS-CoV is a zoonotic pathogen capable of infecting numerous species. However, our understanding of how this virus adapts to new species remains unclear. Letko et al. experimentally observe several different routes in the stepwise, adaptive evolution of MERS-CoV to a unique host-species variant of the viral receptor.

Published

2018

14. Receptor Usage of a Novel Bat Lineage C Betacoronavirus Reveals Evolution of Middle East Respiratory Syndrome-Related Coronavirus Spike Proteins for Human Dipeptidyl Peptidase 4 Binding

Author

Syed Shakeel Ahmed, Wenhui Li, Kenneth S. M. Li, Jasper Fuk-Woo Chan, Kwok-Yung Yuen, Yinyan Sun, Antonio C.P. Wong, Dong-Yan Jin, Susanna K. P. Lau, Pyrear S.H. Zhao, Xiangyang He, Libiao Zhang, Patrick C. Y. Woo, Jian Piao Cai, Lifeng Xiong, Hayes K.H. Luk, Rachel Y.Y. Fan, Honglin Chen, Xingwen Peng, Terrence Chi-Kong Lau, Raven K. H. Kok, and Plazi

Subjects

0301 basic medicine, viruses, Hypsugo bat, medicine.disease_cause, Chiroptera, Receptors, Immunology and Allergy, Viridae, Receptor, spike glycoprotein, Phylogeny, Coronavirus, Genetics, biotic associations, corona viruses, virus diseases, covid, Virus, Infectious Diseases, covid-19, Viruses, Spike Glycoprotein, Coronavirus, Receptors, Virus, Sequence Analysis, Binding domain, CETAF-taskforce, Protein Binding, Lineage (genetic), animal structures, Middle East respiratory syndrome coronavirus, Evolution, Coronaviridae, Dipeptidyl Peptidase 4, Biology, virus-host, Evolution, Molecular, 03 medical and health sciences, Major Articles and Brief Reports, Betacoronavirus, pathogen-host, medicine, Animals, Humans, biotic relations, Dipeptidyl peptidase-4, Molecular, pathogens, DNA, Sequence Analysis, DNA, biochemical phenomena, metabolism, and nutrition, Virus Internalization, medicine.disease, biology.organism_classification, biotic interaction, respiratory tract diseases, 030104 developmental biology, HEK293 Cells, Middle East respiratory syndrome, Middle East Respiratory Syndrome coronavirus

Abstract

The discovery of Hp-BatCoV HKU25 bridges the evolutionary gap between MERS-CoV and existing bat viruses, and suggests that bat viruses may have evolved to generate MERS-CoV through modulation of the spike protein for binding to hDPP4., Although bats are known to harbor Middle East Respiratory Syndrome coronavirus (MERS-CoV)-related viruses, the role of bats in the evolutionary origin and pathway remains obscure. We identified a novel MERS-CoV-related betacoronavirus, Hp-BatCoV HKU25, from Chinese pipistrelle bats. Although it is closely related to MERS-CoV in most genome regions, its spike protein occupies a phylogenetic position between that of Ty-BatCoV HKU4 and Pi-BatCoV HKU5. Because Ty-BatCoV HKU4 but not Pi-BatCoV HKU5 can use the MERS-CoV receptor human dipeptidyl peptidase 4 (hDPP4) for cell entry, we tested the ability of Hp-BatCoV HKU25 to bind and use hDPP4. The HKU25-receptor binding domain (RBD) can bind to hDPP4 protein and hDPP4-expressing cells, but it does so with lower efficiency than that of MERS-RBD. Pseudovirus assays showed that HKU25-spike can use hDPP4 for entry to hDPP4-expressing cells, although with lower efficiency than that of MERS-spike and HKU4-spike. Our findings support a bat origin of MERS-CoV and suggest that bat CoV spike proteins may have evolved in a stepwise manner for binding to hDPP4.

Published

2018

15. Influence of age and body condition on astrovirus infection of bats in Singapore: An evolutionary and epidemiological analysis

Author

Yvonne C. F. Su, Benjamin P.Y.-H. Lee, Gavin J. D. Smith, Benjamin Liang, Maggie M. Skiles, Ian H. Mendenhall, Erica Sena Neves, Dolyce H. W. Low, Sophie A. Borthwick, and Plazi

Subjects

0301 basic medicine, Rhinolophus, Coronaviridae, Epidemiology, viruses, 030106 microbiology, Population, Eonycteris spelaea, Zoology, Rhinolophus lepidus, Astrovirus, virus-host, 03 medical and health sciences, fluids and secretions, pathogen-host, biotic relations, Viridae, Bat borne virus, education, education.field_of_study, lcsh:R5-920, biology, biotic associations, Public Health, Environmental and Occupational Health, corona viruses, virus diseases, covid, pathogens, biology.organism_classification, Pteropus, biotic interaction, Virology, Southeast Asia, Eonycteris, Phylogenetics, 030104 developmental biology, Infectious Diseases, covid-19, Pooling prevalence, lcsh:Medicine (General), Rousettus, Research Paper, CETAF-taskforce

Abstract

Bats are unique mammals that are reservoirs of high levels of virus diversity. Although several of these viruses are zoonotic, the majority are not. Astroviruses, transmitted fecal-orally, are commonly detected in a wide diversity of bat species, are prevalent at high rates and are not thought to directly infect humans. These features make astroviruses useful in examining virus evolutionary history, epidemiology in the host, and temporal shedding trends. Our study screened for the presence of astroviruses in bats in Singapore, reconstructed the phylogenetic relations of the polymerase genes and tested for population characteristics associated with infection. Of the seven species screened, astroviruses were detected in Rhinolophus lepidus and Eonycteris spelaea. The R. lepidus sequences grouped with other Rhinolophus astrovirus sequences from China and Laos, while the Eoncyteris sequences formed a distinct clade with astroviruses from Rousettus spp. in Laos and Pteropus giganteus in Bangladesh, but not with other E. spelaea sequences. Longitudinal collections of Eonycteris feces demonstrated variable shedding. Juvenile status of bats was a risk factor for astroviruses. This study highlights the diversity of astroviruses in nectivorous and insectivorous bats in Singapore and provides a predictive framework for understanding astrovirus infection in these bats. It also suggests that in addition to host phylogenetic relatedness, host ecology, such as roosting behavior, may drive co-infections, virus maintenance and spillover.

Published

2017

16. Clinical findings and treatment of disseminated 'Mycobacterium avium subspecies hominissuis' infection in a domestic cat

Author

Ryoji Kanegi, Kikuya Sugiura, Shingo Hatoya, Kotaro Hirai, Tomoyo Nabetani, Yusuke Wada, Toshiyuki Tanaka, Mayo Yasugi, and Plazi

Subjects

Lung Diseases, Male, lung disease, Pathology, Antibiotics, Cat Diseases, 0403 veterinary science, antibiotic, feline, Viridae, Lymph node, Atonic seizure, 0303 health sciences, CATS, medicine.diagnostic_test, Isoniazid, biotic associations, corona viruses, covid, 04 agricultural and veterinary sciences, Anti-Bacterial Agents, medicine.anatomical_structure, Liver, covid-19, Pyridoxal Phosphate, Drug Therapy, Combination, Lymph, medicine.drug, CETAF-taskforce, isoniazid, medicine.medical_specialty, mycobacteria, 040301 veterinary sciences, medicine.drug_class, Coronaviridae, Polymorphism, Single Nucleotide, virus-host, 03 medical and health sciences, Seizures, pathogen-host, Internal Medicine, medicine, Animals, Tuberculosis, biotic relations, 030304 developmental biology, Lung, General Veterinary, business.industry, pathogens, Note, medicine.disease, biotic interaction, Bronchoalveolar lavage, Cats, business, Mycobacterium avium

Abstract

A cat was referred because of diffuse parenchymal lung disease. Close examinations revealed a swollen abdominal lymph node and multiple nodules of the liver. Mycobacterium avium subspecies hominissuis infection was confirmed by culture and single nucleotide polymorphism analysis of samples recovered from the liver and bronchoalveolar lavage. After administration of combination antibiotics for 6 months, culture results were negative. Though atonic seizures were observed during the treatment, it disappeared after isoniazid discontinuation and pyridoxal phosphate administration. On day 771 of illness, no clinical signs, lung diseases, or obvious swelling of lymph nodes was observed. This is the first report to confirm Mycobacterium avium subspecies hominissuis infection in cats through gene analysis and to completely cure it with combination antibiotics.

Published

2019

17. Detection and characterization of a novel bat-borne coronavirus in Singapore using multiple molecular approaches

Author

Lin-Fa Wang, Chengfa Benjamin Lee, Grace Yap, Zhengli Shi, Sarah Marie Pascoe, October M. Sessions, Xiao Fang Lim, Danielle E. Anderson, Choon Beng How, Sharon Chan, Lee Ching Ng, Xing-Lou Yang, Jun Hao Tan, Peng Zhou, and Plazi

Subjects

0301 basic medicine, animal structures, Coronaviridae, Highly pathogenic, 030106 microbiology, Genome, Viral, Biology, medicine.disease_cause, Genome, virus-host, 03 medical and health sciences, pathogen-host, Virology, Chiroptera, Cynopterus brachyotis, medicine, Animals, biotic relations, Viridae, Phylogeny, Coronavirus, Disease Reservoirs, Singapore, Transmission (medicine), biotic associations, corona viruses, virus diseases, covid, pathogens, biology.organism_classification, biotic interaction, Rousettus bat coronavirus HKU9, 030104 developmental biology, covid-19, Guano, Betacoronavirus, CETAF-taskforce, Research Article

Abstract

Bats are important reservoirs and vectors in the transmission of emerging infectious diseases. Many highly pathogenic viruses such as SARS-CoV and rabies-related lyssaviruses have crossed species barriers to infect humans and other animals. In this study we monitored the major roost sites of bats in Singapore, and performed surveillance for zoonotic pathogens in these bats. Screening of guano samples collected during the survey uncovered a bat coronavirus ({\textless}span class="jp-italic"{\textgreater}Betacoronavirus{\textless}/span{\textgreater}) in {\textless}span class="jp-italic"{\textgreater}Cynopterus brachyotis{\textless}/span{\textgreater}, commonly known as the lesser dog-faced fruit bat. Using a capture-enrichment sequencing platform, the full-length genome of the bat CoV was sequenced and found to be closely related to the bat coronavirus HKU9 species found in Leschenault's rousette discovered in the Guangdong and Yunnan provinces.

Published

2019

18. A metaanalysis of bat phylogenetics and positive selection based on genomes and transcriptomes from 18 species

Author

Marcel A. Müller, Christian Drosten, Sara L. Sawyer, Maria E. Kaczmarek, William H. Press, John A. Hawkins, and Plazi

Subjects

0106 biological sciences, animal structures, Coronaviridae, Evolution, Computational biology, Biology, 010603 evolutionary biology, 01 natural sciences, Genome, virus-host, Transcriptome, 03 medical and health sciences, Exon, Phylogenetics, pathogen-host, Chiroptera, Animals, biotic relations, Amino Acid Sequence, Viridae, Selection, Genetic, Gene, Phylogeny, 030304 developmental biology, 0303 health sciences, Natural selection, Multidisciplinary, biotic associations, corona viruses, covid, pathogens, Biological Sciences, biology.organism_classification, biotic interaction, phylogenetics, covid-19, PNAS Plus, orthologous genes, Hypsignathus monstrosus, transcriptome, gene alignment, Coronavirus, Sequence Alignment, Orthologous Gene, CETAF-taskforce, Genome-Wide Association Study

Abstract

Significance This work represents a large, order-wide evolutionary analysis of the order Chiroptera (bats). Our pipeline for assembling sequence data and curating orthologous multiple sequence alignments includes methods for improving results when combining genomic and transcriptomic data sources. The resulting phylogenetic tree divides the order Chiroptera into Yinpterochiroptera and Yangochiroptera, in disagreement with the previous division into Megachiroptera and Microchiroptera and in agreement with some other recent molecular studies, and also provides evidence for other contested branch placements. We also performed a genome-wide analysis of positive selection and found 181 genes with signatures of positive selection. Enrichment analysis shows these positively selected genes to be primarily related to immune responses but also, surprisingly, collagen formation., Historically, the evolution of bats has been analyzed using a small number of genetic loci for many species or many genetic loci for a few species. Here we present a phylogeny of 18 bat species, each of which is represented in 1,107 orthologous gene alignments used to build the tree. We generated a transcriptome sequence of Hypsignathus monstrosus, the African hammer-headed bat, and additional transcriptome sequence for Rousettus aegyptiacus, the Egyptian fruit bat. We then combined these data with existing genomic and transcriptomic data from 16 other bat species. In the analysis of such datasets, there is no clear consensus on the most reliable computational methods for the curation of quality multiple sequence alignments since these public datasets represent multiple investigators and methods, including different source materials (chromosomal DNA or expressed RNA). Here we lay out a systematic analysis of parameters and produce an advanced pipeline for curating orthologous gene alignments from combined transcriptomic and genomic data, including a software package: the Mismatching Isoform eXon Remover (MIXR). Using this method, we created alignments of 11,677 bat genes, 1,107 of which contain orthologs from all 18 species. Using the orthologous gene alignments created, we assessed bat phylogeny and also performed a holistic analysis of positive selection acting in bat genomes. We found that 181 genes have been subject to positive natural selection. This list is dominated by genes involved in immune responses and genes involved in the production of collagens.

Published

2019

19. Infection, Replication, and Transmission of Middle East Respiratory Syndrome Coronavirus in Alpacas

Author

Airn E. Hartwig, Danielle R. Adney, Helle Bielefeldt-Ohmann, Richard A. Bowen, and Plazi

Subjects

0301 basic medicine, Epidemiology, viruses, Biopsy, lcsh:Medicine, Antibodies, Viral, Virus Replication, medicine.disease_cause, MERS-CoV, 0302 clinical medicine, Zoonoses, Viridae, Pathogen, alpacas, Transmission (medicine), biotic associations, transmission, corona viruses, covid, Immunohistochemistry, Infection, Replication, and Transmission of Middle East Respiratory Syndrome Coronavirus in Alpacas, Virus Shedding, medicine.anatomical_structure, Infectious Diseases, covid-19, TheoryofComputation_LOGICSANDMEANINGSOFPROGRAMS, Middle East Respiratory Syndrome Coronavirus, Vicugna pacos, Symptom Assessment, Coronavirus Infections, CETAF-taskforce, Microbiology (medical), endocrine system, replication, Camelus, Coronaviridae, Middle East respiratory syndrome coronavirus, 030231 tropical medicine, Biology, Virus, lcsh:Infectious and parasitic diseases, virus-host, respiratory infections, 03 medical and health sciences, pathogen-host, Immunity, medicine, Animals, Humans, lcsh:RC109-216, biotic relations, Viral shedding, ComputingMilieux_THECOMPUTINGPROFESSION, Research, lcsh:R, pathogens, biotic interaction, Antibodies, Neutralizing, immunity, Virology, infection, Immunity, Humoral, Disease Models, Animal, TheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGES, 030104 developmental biology, experimental infection, Viral replication, Respiratory tract

Abstract

These animals might be useful surrogates for camels in laboratory studies of this virus., Middle East respiratory syndrome coronavirus is a recently emerged pathogen associated with severe human disease. Zoonotic spillover from camels appears to play a major role in transmission. Because of logistic difficulties in working with dromedaries in containment, a more manageable animal model would be desirable. We report shedding and transmission of this virus in experimentally infected alpacas (n = 3) or those infected by contact (n = 3). Infectious virus was detected in all infected animals and in 2 of 3 in-contact animals. All alpacas seroconverted and were rechallenged 70 days after the original infection. Experimentally infected animals were protected against reinfection, and those infected by contact were partially protected. Necropsy specimens from immunologically naive animals (n = 3) obtained on day 5 postinfection showed virus in the upper respiratory tract. These data demonstrate efficient virus replication and animal-to-animal transmission and indicate that alpacas might be useful surrogates for camels in laboratory studies.

Published

2016

20. Experimental Infection and Response to Rechallenge of Alpacas with Middle East Respiratory Syndrome Coronavirus

Author

Gary Crameri, Dayna Johnson, Maged Gomaa Hemida, Deborah Middleton, Meng Yu, Sarah Riddell, Adam J. Foord, Jessica Haining, Lin-Fa Wang, Reuben Klein, Malik Peiris, Peter A. Durr, Jennifer A. Barr, and Plazi

Subjects

0301 basic medicine, camel, Epidemiology, viruses, coronavirus, lcsh:Medicine, experimental animal model, Antibodies, Viral, medicine.disease_cause, shedding, MERS-CoV, vaccine, Viridae, Coronavirus, Middle East respiratory syndrome, biotic associations, Dispatch, corona viruses, covid, Viral Load, Virus Shedding, Infectious Diseases, covid-19, TheoryofComputation_LOGICSANDMEANINGSOFPROGRAMS, Middle East Respiratory Syndrome Coronavirus, Female, Coronavirus Infections, Camelids, New World, Viral load, CETAF-taskforce, alpaca, Microbiology (medical), Middle East respiratory syndrome coronavirus, Coronaviridae, rechallenge, 030106 microbiology, Experimental Infection and Response to Rechallenge of Alpacas with Middle East Respiratory Syndrome Coronavirus, severe acute respiratory syndrome, Biology, Virus, lcsh:Infectious and parasitic diseases, virus-host, 03 medical and health sciences, Neutralization Tests, pathogen-host, medicine, Animals, lcsh:RC109-216, biotic relations, Viral shedding, SARS, ComputingMilieux_THECOMPUTINGPROFESSION, lcsh:R, pathogens, medicine.disease, biotic interaction, Antibodies, Neutralizing, Virology, infection, zoonoses, Disease Models, Animal, 030104 developmental biology, TheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGES, Immunology

Abstract

We conducted a challenge/rechallenge trial in which 3 alpacas were infected with Middle East respiratory syndrome coronavirus. The alpacas shed virus at challenge but were refractory to further shedding at rechallenge on day 21. The trial indicates that alpacas may be suitable models for infection and shedding dynamics of this virus.

Published

2016

21. Detection and characterization of diverse alpha- and betacoronaviruses from bats in China

Author

Gang Chen, Yuzhen Zhang, Quanshui Fan, Tingsong Hu, Yun Feng, Lin Xu, Changchun Tu, Hailin Zhang, Guanjun Lu, Fuqiang Zhang, Biao He, W.H. Yang, Jiang Feng, Tinglei Jiang, Xingyu Li, and Plazi

Subjects

0301 basic medicine, viruses, Bioinformatics, Alphacoronavirus, Genome, Chiroptera, Gene duplication, Viral, Viridae, Phylogeny, Genomic organization, Genetics, biology, Phylogenetic tree, biotic associations, corona viruses, covid, RNA Replicase, covid-19, Molecular Medicine, Coronavirus Infections, Sequence Analysis, CETAF-taskforce, Research Article, China, Sequence analysis, Evolution, Coronaviridae, 030106 microbiology, Immunology, bats, Genome, Viral, Real-Time Polymerase Chain Reaction, virus-host, diversity, Evolution, Molecular, 03 medical and health sciences, Betacoronavirus, pathogen-host, Virology, Animals, biotic relations, Whole genome sequencing, Base Sequence, Molecular, Genetic Variation, pathogens, biology.organism_classification, biotic interaction, RNA-Dependent RNA Polymerase, Coronavirus, 030104 developmental biology

Abstract

Bats have been implicated as important reservoir hosts of alpha- and betacoronaviruses. In this study, diverse coronaviruses (CoVs) were detected in 50 of 951 (positive rate 5.3%) intestinal specimens of eight bat species collected in four provinces and the Tibet Autonomous Region of China by pan-coronavirus RT-PCR screening. Based on 400-nt RNA-dependent RNA polymerase (RdRP) sequence analysis, eight belonged to genus Alphacoronavirus and 42 to Betacoronavirus. Among the 50 positive specimens, thirteen gave rise to CoV full-length RdRP gene amplification for further sequence comparison, of which three divergent sequences (two from a unreported province) were subjected to full genome sequencing. Two complete genomes of betacoronaviruses (JTMC15 and JPDB144) and one nearly-complete genome of alphacoronavirus (JTAC2) were sequenced and their genomic organization predicted. The present study has identified additional numbers of genetically diverse bat-borne coronaviruses with a wide distribution in China. Two new species of bat CoV, identified through sequence comparison and phylogenetic analysis, are proposed. Electronic Supplementary Material Supplementary material is available for this article at 10.1007/s12250-016-3727-3 and is accessible for authorized users.

Published

2016

22. An orthopoxvirus-based vaccine reduces virus excretion after MERS-CoV infection in dromedary camels

Author

Judith M. A. van den Brand, Saskia L. Smits, Asisa Volz, Peter Wohlsein, Wolfgang Baumgärtner, Debby Schipper, Theo M. Bestebroer, Robert Fux, V. Stalin Raj, Albert D. M. E. Osterhaus, Gerd Sutter, Albert Bensaid, Nisreen M.A. Okba, David Solanes Foz, Bart L. Haagmans, Thijs Kuiken, Joaquim Segalés, Virology, and Plazi

Subjects

0301 basic medicine, viruses, Antibodies, Viral, medicine.disease_cause, Disease Outbreaks, chemistry.chemical_compound, Viral, Orthopoxvirus, Viridae, Non-U.S. Gov't, Neutralizing, Multidisciplinary, biology, Research Support, Non-U.S. Gov't, Viral Vaccine, biotic associations, corona viruses, virus diseases, covid, Spike Glycoprotein, Virus Shedding, covid-19, TheoryofComputation_LOGICSANDMEANINGSOFPROGRAMS, Spike Glycoprotein, Coronavirus, Middle East Respiratory Syndrome Coronavirus, RNA, Viral, Coronavirus Infections, CETAF-taskforce, Camelus, Camelpox virus, Coronaviridae, Middle East respiratory syndrome coronavirus, Vaccinia virus, Research Support, Antibodies, Virus, virus-host, Microbiology, 03 medical and health sciences, SDG 3 - Good Health and Well-being, pathogen-host, Journal Article, medicine, Animals, Humans, biotic relations, Viral shedding, ComputingMilieux_THECOMPUTINGPROFESSION, Outbreak, pathogens, Viral Vaccines, biochemical phenomena, metabolism, and nutrition, biotic interaction, biology.organism_classification, Antibodies, Neutralizing, Virology, respiratory tract diseases, Coronavirus, TheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGES, 030104 developmental biology, chemistry, RNA, Vaccinia

Abstract

Coronaviruses in the Middle East Middle East respiratory syndrome coronavirus (MERS-CoV) causes severe acute respiratory illness and kills about a third of people infected. The virus is common in dromedary camels, which can be a source of human infections. In a survey for MERSCoV in over 1300 Saudi Arabian camels, Sabir et al. found that dromedaries share three coronavirus species with humans. Diverse MERS lineages in camels have caused human infections, which suggests that transfer among host species occurs quite easily. Haagmans et al. made a MERS-CoV vaccine for use in camels, using poxvirus as a vehicle. The vaccine significantly reduced virus excretion, which should help reduce the potential for transmission to humans, and conferred cross-immunity to camelpox infections. Science , this issue p. 81 , p. 77

Published

2016

23. Vertical Distribution of Microbial Eukaryotes from Surface to The Hadal Zone of the Mariana Trench

Author

Xu, Zhimeng OCES, Wang, Min, Wu, Wenxue, Li, Yifan, Liu, Qian, Han, Yuye, Jiang, Yong, Shao, Hongbing, McMinn, Andrew, Liu, Hongbin, Xu, Zhimeng OCES, Wang, Min, Wu, Wenxue, Li, Yifan, Liu, Qian, Han, Yuye, Jiang, Yong, Shao, Hongbing, McMinn, Andrew, and Liu, Hongbin

Abstract

Marine microbial eukaryotes are ubiquitous, comprised of phylogenetically diverse groups and play key roles in microbial food webs and global biogeochemical cycling. However, their vertical distribution in the deep sea has received little attention. In this study, we investigated the composition and diversity of the eukaryotes of both 0.2-3 mu m and > 3 mu m size fractions from the surface to the hadal zone (8727 m) of the Mariana Trench using Illumina MiSeq sequencing for the 18S rDNA. The microbial eukaryotic community structure differed substantially across size fractions and depths. Operational taxonomic unit (OTU) richness in the >3 mu m fraction was higher than that in the 0.2-3 mu m fraction at the same depth. For the 0.2-3 mu m fraction, sequences of Retaria (Rhizaria) were most abundant in the surface water (53.5%). Chrysophyceae (Stramenopiles) sequences dominated mostly in the samples from water depths below 1795 m. For the > 3 mu M fraction, sequences of Dinophyceae (Alveolata) were most abundant in surface waters (49.3%) and remained a significant proportion of total sequences at greater depths (9.8%, on average). Retaria sequences were abundant in samples of depths >= 1000 m. Amoebozoa and Apusozoa sequences were enriched in the hadal sample, comprising 38 and 20.4% of total sequences, respectively. Fungi (Opisthokonta) sequences were most abundant at 1759 m in both size fractions. Strong positive associations were found between Syndiniales (mainly MALV-I and MALV-II) and Retaria while negative associations were shown between MALV-II and Fungi in a co-occurrence analysis. This study compared the community structure of microbial eukaryotes in different zones in the deep sea and identified a distinct hadal community in the larger size fraction, suggesting the uniqueness of the eukaryotes in the biosphere in the Mariana Trench.

Published

2018

24. Probable Pangolin Origin of SARS-CoV-2 Associated with the COVID-19 Outbreak

Author

Zhigang Zhang, Qunfu Wu, Tao Zhang, and Plazi

Subjects

0301 basic medicine, Disease reservoir, viruses, 0302 clinical medicine, Chiroptera, origin, Viridae, Peptide sequence, Phylogeny, biology, Eutheria, COVID-19, SARS-CoV-2, pangolin, biotic associations, corona viruses, virus diseases, covid, respiratory system, TheoryofComputation_LOGICSANDMEANINGSOFPROGRAMS, Spike Glycoprotein, Coronavirus, Coronavirus Infections, General Agricultural and Biological Sciences, CETAF-taskforce, Coronaviridae, Pneumonia, Viral, Sequence alignment, Genome, Viral, Article, General Biochemistry, Genetics and Molecular Biology, virus-host, Betacoronavirus, 03 medical and health sciences, pathogen-host, Phylogenetics, Animals, Natural reservoir, Amino Acid Sequence, biotic relations, Pandemics, Disease Reservoirs, ComputingMilieux_THECOMPUTINGPROFESSION, Pangolin, Malaysia, Outbreak, pathogens, biochemical phenomena, metabolism, and nutrition, biotic interaction, biology.organism_classification, Virology, respiratory tract diseases, TheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGES, 030104 developmental biology, Sequence Alignment, 030217 neurology & neurosurgery

Abstract

An outbreak of coronavirus disease 2019 (COVID-19) caused by the 2019 novel coronavirus (SARS-CoV-2) began in the city of Wuhan in China and has widely spread worldwide. Currently, it is vital to explore potential intermediate hosts of SARS-CoV-2 to control COVID-19 spread. Therefore, we reinvestigated published data from pangolin lung samples from which SARS-CoV-like CoVs were detected by Liu et al. [1]. We found genomic and evolutionary evidence of the occurrence of a SARS-CoV-2-like CoV (named Pangolin-CoV) in dead Malayan pangolins. Pangolin-CoV is 91.02% and 90.55% identical to SARS-CoV-2 and BatCoV RaTG13, respectively, at the whole-genome level. Aside from RaTG13, Pangolin-CoV is the most closely related CoV to SARS-CoV-2. The S1 protein of Pangolin-CoV is much more closely related to SARS-CoV-2 than to RaTG13. Five key amino acid residues involved in the interaction with human ACE2 are completely consistent between Pangolin-CoV and SARS-CoV-2, but four amino acid mutations are present in RaTG13. Both Pangolin-CoV and RaTG13 lost the putative furin recognition sequence motif at S1/S2 cleavage site that can be observed in the SARS-CoV-2. Conclusively, this study suggests that pangolin species are a natural reservoir of SARS-CoV-2-like CoVs.

Published

2020

25. Coronaviruses in avian species – review with focus on epidemiology and diagnosis in wild birds

Author

Justyna Miłek, Katarzyna Blicharz-Domańska, and Plazi

Subjects

0301 basic medicine, animal structures, 040301 veterinary sciences, Coronaviridae, Veterinary medicine, viruses, coronavirus, Prevalence, Zoology, RNA-dependent RNA polymerase, Genomics, Review Article, medicine.disease_cause, Genome, Virus, virus-host, 0403 veterinary science, 03 medical and health sciences, pathogen-host, SF600-1100, medicine, biotic relations, Viridae, wild birds, Gene, Coronavirus, General Veterinary, biology, poultry, biotic associations, corona viruses, virus diseases, covid, pathogens, 04 agricultural and veterinary sciences, Avian infectious bronchitis, biology.organism_classification, biotic interaction, 030104 developmental biology, covid-19, CETAF-taskforce

Abstract

{\textless}section class="abstract"{\textgreater}{\textless}h2 class="abstractTitle text-title my-1" id="d400e2"{\textgreater}Abstract{\textless}/h2{\textgreater}{\textless}p{\textgreater}Coronaviruses (CoVs) are a large group of enveloped viruses with a single-strand RNA genome, which continuously circulate in mammals and birds and pose a threat to livestock, companion animals, and humans. CoVs harboured by avian species are classified to the genera gamma- and deltacoronaviruses. Within the gamma-CoVs the main representative is avian coronavirus, a taxonomic name which includes the highly contagious infectious bronchitis viruses (IBVs) in chickens and similar viruses infecting other domestic birds such as turkeys, guinea fowls, or quails. Additionally, IBVs have been detected in healthy wild birds, demonstrating that they may act as the vector between domestic and free-living birds. Moreover, CoVs other than IBVs, are identified in wild birds, which suggests that wild birds play a key role in the epidemiology of other gammaCoVs and deltaCoVs. Development of molecular techniques has significantly improved knowledge of the prevalence of CoVs in avian species. The methods adopted in monitoring studies of CoVs in different avian species are mainly based on detection of conservative regions within the viral replicase, nucleocapsid genes, and 3'UTR or 5'UTR. The purpose of this review is to summarise recent discoveries in the areas of epidemiology and diagnosis of CoVs in avian species and to understand the role of wild birds in the virus distribution.{\textless}/p{\textgreater}{\textless}/section{\textgreater}

Published

2018

26. Genomic characterization and infectivity of a novel SARS-like coronavirus in Chinese bats

Author

Ai Lele, Fuqiang Ye, Yi Wang, Bachar H. Hassan, Youjun Feng, Yang Lu, He Ting, Changjun Wang, Ding Chenxi, Ruicheng Lv, Zhu Changqiang, Jin Zhu, Tan Weilong, Xuhui Zhu, Dan Hu, and Plazi

Subjects

Male, 0301 basic medicine, Epidemiology, viruses, lcsh:QR1-502, lcsh:Microbiology, law.invention, law, Chiroptera, Drug Discovery, Viral, Viridae, ORFS, Phylogeny, Polymerase chain reaction, Infectivity, Genome, Virulence, biology, biotic associations, corona viruses, virus diseases, covid, General Medicine, Infectious Diseases, covid-19, Civet, Female, CETAF-taskforce, China, Coronaviridae, Immunology, Microbiology, Virus, Article, lcsh:Infectious and parasitic diseases, virus-host, Viral Proteins, Open Reading Frames, 03 medical and health sciences, pathogen-host, Phylogenetics, Virology, Animals, lcsh:RC109-216, biotic relations, fungi, Outbreak, pathogens, biotic interaction, biology.organism_classification, Rats, Coronavirus, 030104 developmental biology, Parasitology

Abstract

SARS coronavirus (SARS-CoV), the causative agent of the large SARS outbreak in 2003, originated in bats. Many SARS-like coronaviruses (SL-CoVs) have been detected in bats, particularly those that reside in China, Europe, and Africa. To further understand the evolutionary relationship between SARS-CoV and its reservoirs, 334 bats were collected from Zhoushan city, Zhejiang province, China, between 2015 and 2017. PCR amplification of the conserved coronaviral protein RdRp detected coronaviruses in 26.65% of bats belonging to this region, and this number was influenced by seasonal changes. Full genomic analyses of the two new SL-CoVs from Zhoushan (ZXC21 and ZC45) showed that their genomes were 29,732 nucleotides (nt) and 29,802 nt in length, respectively, with 13 open reading frames (ORFs). These results revealed 81% shared nucleotide identity with human/civet SARS CoVs, which was more distant than that observed previously for bat SL-CoVs in China. Importantly, using pathogenic tests, we found that the virus can reproduce and cause disease in suckling rats, and further studies showed that the virus-like particles can be observed in the brains of suckling rats by electron microscopy. Thus, this study increased our understanding of the genetic diversity of the SL-CoVs carried by bats and also provided a new perspective to study the possibility of cross-species transmission of SL-CoVs using suckling rats as an animal model.

Published

2018

27. Bat-Origin Coronaviruses Expand Their Host Range to Pigs

Author

Wang, Liang, Su, Shuo, Bi, Yuhai, Wong, Gary, Gao, George F., and Plazi

Subjects

ComputingMilieux_THECOMPUTINGPROFESSION, SeACoV, Coronaviridae, biotic associations, public health, corona viruses, covid, pathogens, host jump, biotic interaction, swine enteric alphacoronaviruses, bat-origin, virus-host, TheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGES, covid-19, pathogen-host, TheoryofComputation_LOGICSANDMEANINGSOFPROGRAMS, biotic relations, Viridae, CETAF-taskforce

Abstract

No abstract found

Published

2018

28. Fatal swine acute diarrhoea syndrome caused by an HKU2-related coronavirus of bat origin

Author

Xianglilan Zhang, Peng Zhou, Shi-Yue Li, Danielle E. Anderson, Zixian Wu, Xing-Lou Yang, Yong Huang, Hang Fan, Qingmei Xie, Xiaoping An, Ren Huang, Xiang-Ling Liu, Libiao Zhang, Zhiqiang Mi, Yuan Sun, Jingyun Ma, Feng Cong, Tongtong He, Jinman Li, Guangqian Pei, Hua Guo, Qiang Sun, Pengju Guo, Yun Luo, Shailendra Mani, Yan Zhu, Zhengli Shi, Lin-Fa Wang, Xiao-Shuang Zheng, Di Li, Peter Daszak, Ling Zhou, Wei Zhang, Kai-jie Mai, Tian Lan, Yuan-Yuan Wang, Bei Li, Yigang Tong, Juan Li, Yan-Shan Chen, Shaozhen Xing, Jing Chen, Ya-Wei Zhang, Weifeng Shi, Jun-Wei Chen, and Plazi

Subjects

0301 basic medicine, Letter, Swine, viruses, medicine.disease_cause, Severe Acute Respiratory Syndrome, Alphacoronavirus, Animal Diseases, Zoonoses, Chiroptera, Pandemic, Viral, Viridae, Phylogeny, Coronavirus, Multidisciplinary, Genome, Transmission (medicine), Viral Epidemiology, Zoonosis, biotic associations, corona viruses, virus diseases, covid, Biodiversity, 3. Good health, Jejunum, covid-19, Coronavirus Infections, CETAF-taskforce, Diarrhea, China, Rhinolophus, Viral epidemiology, Coronaviridae, 030106 microbiology, Genome, Viral, Biology, virus-host, 03 medical and health sciences, Viral reservoirs, Spatio-Temporal Analysis, pathogen-host, medicine, Humans, Animals, biotic relations, Disease Reservoirs, Outbreak, pathogens, medicine.disease, biology.organism_classification, biotic interaction, Virology, 030104 developmental biology

Abstract

Cross-species transmission of viruses from wildlife animal reservoirs poses a marked threat to human and animal health1. Bats have been recognized as one of the most important reservoirs for emerging viruses and the transmission of a coronavirus that originated in bats to humans via intermediate hosts was responsible for the high-impact emerging zoonosis, severe acute respiratory syndrome (SARS)2–10. Here we provide virological, epidemiological, evolutionary and experimental evidence that a novel HKU2-related bat coronavirus, swine acute diarrhoea syndrome coronavirus (SADS-CoV), is the aetiological agent that was responsible for a large-scale outbreak of fatal disease in pigs in China that has caused the death of 24,693 piglets across four farms. Notably, the outbreak began in Guangdong province in the vicinity of the origin of the SARS pandemic. Furthermore, we identified SADS-related CoVs with 96–98% sequence identity in 9.8% (58 out of 591) of anal swabs collected from bats in Guangdong province during 2013–2016, predominantly in horseshoe bats (Rhinolophus spp.) that are known reservoirs of SARS-related CoVs. We found that there were striking similarities between the SADS and SARS outbreaks in geographical, temporal, ecological and aetiological settings. This study highlights the importance of identifying coronavirus diversity and distribution in bats to mitigate future outbreaks that could threaten livestock, public health and economic growth., Analysis of viral samples from deceased piglets shows that a bat coronavirus was responsible for an outbreak of fatal disease in China and highlights the importance of the identification of coronavirus diversity and distribution in bats in order to mitigate future outbreaks of disease.

Published

2018

29. Cameroonian fruit bats harbor divergent viruses, including rotavirus H, bastroviruses, and picobirnaviruses using an alternative genetic code

Author

Nádia Conceição-Neto, Jelle Matthijnssens, Stephen Mbigha Ghogomu, Piet Maes, Ward Deboutte, Claude Kwe Yinda, Leen Beller, Emiel Vanhulle, Marc Van Ranst, and Plazi

Subjects

0301 basic medicine, food.ingredient, Coronaviridae, viruses, 030106 microbiology, Population, bat, Microbiology, Genome, virus-host, 03 medical and health sciences, rotavirus H, food, pathogen-host, Virology, Human virome, biotic relations, Viridae, education, Gene, Genetics, picobirnavirus, education.field_of_study, virome, metagenomics, biology, Phylogenetic tree, biotic associations, corona viruses, Epomophorus gambianus, covid, pathogens, bastrovirus, biology.organism_classification, biotic interaction, Eidolon helvum, 030104 developmental biology, Cyclovirus, covid-19, CETAF-taskforce, Research Article

Abstract

Most human emerging infectious diseases originate from wildlife and bats are a major reservoir of viruses, a few of which have been highly pathogenic to humans. In some regions of Cameroon, bats are hunted and eaten as a delicacy. This close proximity between human and bats provides ample opportunity for zoonotic events. To elucidate the viral diversity of Cameroonian fruit bats, we collected and metagenomically screened eighty-seven fecal samples of Eidolon helvum and Epomophorus gambianus fruit bats. The results showed a plethora of known and novel viruses. Phylogenetic analyses of the eleven gene segments of the first complete bat rotavirus H genome, showed clearly separated clusters of human, porcine, and bat rotavirus H strains, not indicating any recent interspecies transmission events. Additionally, we identified and analyzed a bat bastrovirus genome (a novel group of recently described viruses, related to astroviruses and hepatitis E viruses), confirming their recombinant nature, and provide further evidence of additional recombination events among bat bastroviruses. Interestingly, picobirnavirus-like RNA-dependent RNA polymerase gene segments were identified using an alternative mitochondrial genetic code, and further principal component analyses suggested that they may have a similar lifestyle to mitoviruses, a group of virus-like elements known to infect the mitochondria of fungi. Although identified bat coronavirus, parvovirus, and cyclovirus strains belong to established genera, most of the identified partitiviruses and densoviruses constitute putative novel genera in their respective families. Finally, the results of the phage community analyses of these bats indicate a very diverse geographically distinct bat phage population, probably reflecting different diets and gut bacterial ecosystems. ispartof: Virus Evolution vol:4 issue:1 ispartof: location:England status: published

Published

2018

30. Longitudinal Surveillance of Betacoronaviruses in Fruit Bats in Yunnan Province, China During 2009-2016

Author

Ben Hu, Yun Luo, Bei Li, Dong-Sheng Luo, Ren-Di Jiang, Bing-Jie Hu, Yun-Zhi Zhang, Xing-Lou Yang, Guangjian Zhu, Haizhou Liu, Zhengli Shi, and Plazi

Subjects

0301 basic medicine, Genome, Genetic diversity, Medical microbiology, Chiroptera, Viral, Viridae, Surveillance, biology, Strain (biology), biotic associations, corona viruses, covid, 3. Good health, covid-19, Epidemiological Monitoring, RNA, Viral, Molecular Medicine, Coronavirus Infections, Sequence Analysis, Research Article, CETAF-taskforce, medicine.medical_specialty, China, Coronaviridae, Immunology, Zoology, Real-Time Polymerase Chain Reaction, Virus, virus-host, 03 medical and health sciences, Betacoronavirus, pathogen-host, Virology, medicine, Animals, biotic relations, Disease Reservoirs, Whole Genome Sequencing, Spike Protein, Animal Structures, Genetic Variation, pathogens, Sequence Analysis, DNA, DNA, biology.organism_classification, biotic interaction, 030104 developmental biology, RNA

Abstract

Previous studies indicated that fruit bats carry two betacoronaviruses, BatCoV HKU9 and BatCoV GCCDC1. To investigate the epidemiology and genetic diversity of these coronaviruses, we conducted a longitudinal surveillance in fruit bats in Yunnan province, China during 2009–2016. A total of 59 (10.63%) bat samples were positive for the two betacorona-viruses, 46 (8.29%) for HKU9 and 13 (2.34%) for GCCDC1, or closely related viruses. We identified a novel HKU9 strain, tentatively designated as BatCoV HKU9-2202, by sequencing the full-length genome. The BatCoV HKU9-2202 shared 83% nucleotide identity with other BatCoV HKU9 stains based on whole genome sequences. The most divergent region is in the spike protein, which only shares 68% amino acid identity with BatCoV HKU9. Quantitative PCR revealed that the intestine was the primary infection organ of BatCoV HKU9 and GCCDC1, but some HKU9 was also detected in the heart, kidney, and lung tissues of bats. This study highlights the importance of virus surveillance in natural reservoirs and emphasizes the need for preparedness against the potential spill-over of these viruses to local residents living near bat caves. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (10.1007/s12250-018-0017-2) contains supplementary material, which is available to authorized users.

Published

2018

31. Discovery of Novel Bat Coronaviruses in South China That Use the Same Receptor as Middle East Respiratory Syndrome Coronavirus

Author

Guang Jian Zhu, Qi Bin Geng, Bei Li, Zhengli Shi, Xing-Lou Yang, Cheng Peng, Ning Wang, Wei Zhang, Fang Li, Ben Hu, Hai Zhou Liu, Chu Ming Luo, and Plazi

Subjects

0301 basic medicine, Lineage (evolution), viruses, Sequence Homology, bat, medicine.disease_cause, Genome, dipeptidyl peptidase 4, Chiroptera, Receptors, Evening bat, Pipistrellus, Viral, Viridae, Phylogeny, Coronavirus, Genetics, biotic associations, corona viruses, virus diseases, covid, Virus, covid-19, Tylonycteris pachypus, Middle East Respiratory Syndrome Coronavirus, Receptors, Virus, Coronavirus Infections, CETAF-taskforce, Middle East respiratory syndrome coronavirus, Coronaviridae, Evolution, 030106 microbiology, Immunology, Genome, Viral, Biology, Microbiology, Host Specificity, virus-host, Evolution, Molecular, 03 medical and health sciences, Viral Proteins, pathogen-host, Virology, medicine, Humans, Animals, Natural reservoir, Amino Acid Sequence, biotic relations, virus discovery, Molecular, pathogens, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, biotic interaction, MERS-related coronavirus, respiratory tract diseases, 030104 developmental biology, Genetic Diversity and Evolution, Insect Science

Abstract

Middle East respiratory syndrome coronavirus (MERS-CoV) has represented a human health threat since 2012. Although several MERS-related CoVs that belong to the same species as MERS-CoV have been identified from bats, they do not use the MERS-CoV receptor, dipeptidyl peptidase 4 (DPP4). Here, we screened 1,059 bat samples from at least 30 bat species collected in different regions in south China and identified 89 strains of lineage C betacoronaviruses, including Tylonycteris pachypus coronavirus HKU4 , Pipistrellus pipistrellus coronavirus HKU5 , and MERS-related CoVs. We sequenced the full-length genomes of two positive samples collected from the great evening bat, Ia io , from Guangdong Province. The two genomes were highly similar and exhibited genomic structures identical to those of other lineage C betacoronaviruses. While they exhibited genome-wide nucleotide identities of only 75.3 to 81.2% with other MERS-related CoVs, their gene-coding regions were highly similar to their counterparts, except in the case of the spike proteins. Further protein-protein interaction assays demonstrated that the spike proteins of these MERS-related CoVs bind to the receptor DPP4. Recombination analysis suggested that the newly discovered MERS-related CoVs have acquired their spike genes from a DPP4-recognizing bat coronavirus HKU4. Our study provides further evidence that bats represent the evolutionary origins of MERS-CoV. IMPORTANCE Previous studies suggested that MERS-CoV originated in bats. However, its evolutionary path from bats to humans remains unclear. In this study, we discovered 89 novel lineage C betacoronaviruses in eight bat species. We provide evidence of a MERS-related CoV derived from the great evening bat that uses the same host receptor as human MERS-CoV. This virus also provides evidence for a natural recombination event between the bat MERS-related CoV and another bat coronavirus, HKU4. Our study expands the host ranges of MERS-related CoV and represents an important step toward establishing bats as the natural reservoir of MERS-CoV. These findings may lead to improved epidemiological surveillance of MERS-CoV and the prevention and control of the spread of MERS-CoV to humans.

Published

2018

32. Pre- and postexposure efficacy of fully human antibodies against Spike protein in a novel humanized mouse model of MERS-CoV infection

Author

Ka Man V. Lai, Christopher M. Coleman, Kristen E. Pascal, Alejandro O. Mujica, Christos A. Kyratsous, Robert Babb, Vishal Kamat, Matthew B. Frieman, Ashok Badithe, Krystal Matthews, Neil Stahl, Charleen Hunt, Alexander Berrebi, Tammy T. Huang, Jeanne M. Sisk, Gang Chen, Jeanette L. Fairhurst, George D. Yancopoulos, William C. Olson, John Strein, and Plazi

Subjects

Middle East respiratory syndrome coronavirus, Coronaviridae, Biology, Immunoglobulin light chain, medicine.disease_cause, Genome, virus-host, Mice, In vivo, pathogen-host, medicine, Animals, Humans, Letters, biotic relations, Viridae, Neutralizing antibody, Multidisciplinary, biotic associations, corona viruses, Antibodies, Monoclonal, covid, pathogens, Biological Sciences, biotic interaction, Antibodies, Neutralizing, Virology, Disease Models, Animal, HEK293 Cells, covid-19, Spike Glycoprotein, Coronavirus, Humanized mouse, Middle East Respiratory Syndrome Coronavirus, biology.protein, Viral disease, Antibody, Coronavirus Infections, CETAF-taskforce

Abstract

Traditional approaches to antimicrobial drug development are poorly suited to combatting the emergence of novel pathogens. Additionally, the lack of small animal models for these infections hinders the in vivo testing of potential therapeutics. Here we demonstrate the use of the VelocImmune technology (a mouse that expresses human antibody-variable heavy chains and κ light chains) alongside the VelociGene technology (which allows for rapid engineering of the mouse genome) to quickly develop and evaluate antibodies against an emerging viral disease. Specifically, we show the rapid generation of fully human neutralizing antibodies against the recently emerged Middle East Respiratory Syndrome coronavirus (MERS-CoV) and development of a humanized mouse model for MERS-CoV infection, which was used to demonstrate the therapeutic efficacy of the isolated antibodies. The VelocImmune and VelociGene technologies are powerful platforms that can be used to rapidly respond to emerging epidemics.

Published

2015

33. Passive Immunotherapy with Dromedary Immune Serum in an Experimental Animal Model for Middle East Respiratory Syndrome Coronavirus Infection

Author

Jincun Zhao, Ranawaka A.P.M. Perera, Malik Peiris, Ghazi Kayali, Stanley Perlman, David K. Meyerholz, and Plazi

Subjects

Camelus, Coronaviridae, Middle East respiratory syndrome coronavirus, Immunology, medicine.disease_cause, Microbiology, Virus, virus-host, pathogen-host, Virology, Vaccines and Antiviral Agents, medicine, Animals, biotic relations, Viridae, Lung, Coronavirus, Mice, Inbred BALB C, biology, Immune Sera, biotic associations, corona viruses, Immunization, Passive, covid, pathogens, respiratory system, biochemical phenomena, metabolism, and nutrition, biotic interaction, medicine.disease, biology.organism_classification, respiratory tract diseases, Disease Models, Animal, Titer, Treatment Outcome, medicine.anatomical_structure, covid-19, Insect Science, Middle East Respiratory Syndrome Coronavirus, biology.protein, Middle East respiratory syndrome, Female, Antibody, Coronavirus Infections, CETAF-taskforce

Abstract

Middle East respiratory syndrome (MERS) is a highly lethal pulmonary infection. Serum from convalescent MERS patients may provide some benefit but is not readily available. In contrast, nearly all camels in the Middle East have been infected with MERS-CoV. Here, we show that sera obtained from MERS-immune camels augment the kinetics of MERS-CoV clearance and reduce the severity of pathological changes in infected lungs, with efficacy proportional to the titer of MERS-CoV-neutralizing serum antibody. IMPORTANCE Middle East respiratory syndrome, caused by a coronavirus, is highly lethal, with a case fatality rate of 35 to 40%. No specific therapy is available, and care is generally supportive. One promising approach is passive administration of sera from convalescent human MERS patients or other animals to exposed or infected patients. The vast majority of, if not all, camels in the Middle East have been infected with MERS-CoV, and some contain high titers of antibody to the virus. Here, we show that this antibody is protective if delivered either prophylactically or therapeutically to mice infected with MERS-CoV, indicating that this may be a useful intervention in infected patients.

Published

2015

34. Protective Efficacy of Recombinant Modified Vaccinia Virus Ankara Delivering Middle East Respiratory Syndrome Coronavirus Spike Glycoprotein

Author

Fei Song, Jörg C. Schmidt, Stephan Becker, Gerd Sutter, Markus Eickmann, Sylvia Jany, Christin Becker, Alexandra Kupke, Robert Fux, Hosam Shams-Eldin, Asisa Volz, and Plazi

Subjects

viruses, Drug Evaluation, Preclinical, CD8-Positive T-Lymphocytes, medicine.disease_cause, law.invention, chemistry.chemical_compound, Mice, law, Viridae, Mice, Inbred BALB C, biology, Viral Vaccine, biotic associations, corona viruses, virus diseases, covid, covid-19, Spike Glycoprotein, Coronavirus, Recombinant DNA, Middle East Respiratory Syndrome Coronavirus, Antibody, Coronavirus Infections, CETAF-taskforce, Coronaviridae, Middle East respiratory syndrome coronavirus, Immunology, Vaccinia virus, Microbiology, Virus, virus-host, pathogen-host, Virology, Vaccines and Antiviral Agents, medicine, Animals, biotic relations, Dipeptidyl peptidase-4, pathogens, Viral Vaccines, biochemical phenomena, metabolism, and nutrition, biotic interaction, Antibodies, Neutralizing, respiratory tract diseases, chemistry, Insect Science, biology.protein, Vaccinia, CD8

Abstract

Middle East respiratory syndrome coronavirus (MERS-CoV) causes severe respiratory disease in humans. We tested a recombinant modified vaccinia virus Ankara (MVA) vaccine expressing full-length MERS-CoV spike (S) glycoprotein by immunizing BALB/c mice with either intramuscular or subcutaneous regimens. In all cases, MVA-MERS-S induced MERS-CoV-specific CD8 + T cells and virus-neutralizing antibodies. Vaccinated mice were protected against MERS-CoV challenge infection after transduction with the human dipeptidyl peptidase 4 receptor. This MERS-CoV infection model demonstrates the safety and efficacy of the candidate vaccine.

Published

2015

35. Development of animal models against emerging coronaviruses: From SARS to MERS coronavirus

Author

Troy C. Sutton, Kanta Subbarao, and Plazi

Subjects

Coronaviruses, viruses, medicine.disease_cause, Communicable Diseases, Emerging, MERS-CoV, Sars virus, Viridae, Emerging, biotic associations, corona viruses, virus diseases, covid, SARS-CoV, respiratory system, SARS Virus, Animal models, Severe acute respiratory syndrome-related coronavirus, covid-19, Host-Pathogen Interactions, Middle East Respiratory Syndrome Coronavirus, Severe acute respiratory syndrome coronavirus, Coronavirus Infections, Host specificity, CETAF-taskforce, Receptor, Coronaviridae, Middle East respiratory syndrome coronavirus, Severe disease, Biology, Communicable Diseases, Article, Host Specificity, virus-host, pathogen-host, Virology, medicine, Humans, Animals, biotic relations, Animal species, Animal, pathogens, biochemical phenomena, metabolism, and nutrition, biotic interaction, respiratory tract diseases, Disease Models, Animal, Viral Receptor, Disease Models

Abstract

Two novel coronaviruses have emerged to cause severe disease in humans. While bats may be the primary reservoir for both viruses, SARS coronavirus (SARS-CoV) likely crossed into humans from civets in China, and MERS coronavirus (MERS-CoV) has been transmitted from camels in the Middle East. Unlike SARS-CoV that resolved within a year, continued introductions of MERS-CoV present an on-going public health threat. Animal models are needed to evaluate countermeasures against emerging viruses. With SARS-CoV, several animal species were permissive to infection. In contrast, most laboratory animals are refractory or only semi-permissive to infection with MERS-CoV. This host-range restriction is largely determined by sequence heterogeneity in the MERS-CoV receptor. We describe animal models developed to study coronaviruses, with a focus on host-range restriction at the level of the viral receptor and discuss approaches to consider in developing a model to evaluate countermeasures against MERS-CoV.

Published

2015

36. Glycosylation of Mouse DPP4 Plays a Role in Inhibiting Middle East Respiratory Syndrome Coronavirus Infection

Author

Trevor Scobey, Boyd Yount, Mark T. Heise, Adam S. Cockrell, Ralph S. Baric, Kayla M. Peck, and Plazi

Subjects

Models, Molecular, Glycosylation, Coronaviridae, Coronaviruses, Middle East respiratory syndrome coronavirus, Dipeptidyl Peptidase 4, viruses, Molecular Sequence Data, Immunology, Fluorescent Antibody Technique, MERS (Disease), Biology, medicine.disease_cause, Microbiology, virus-host, Mice, chemistry.chemical_compound, Species Specificity, pathogen-host, Virology, medicine, Animals, Model development, biotic relations, Amino Acid Sequence, Viridae, Receptor, Peptide sequence, Dipeptidyl peptidase-4, biotic associations, corona viruses, virus diseases, covid, pathogens, Virus Internalization, biotic interaction, respiratory tract diseases, Virus-Cell Interactions, covid-19, chemistry, FOS: Biological sciences, Insect Science, Middle East Respiratory Syndrome Coronavirus, Coronavirus Infections, Function (biology), CETAF-taskforce

Abstract

Middle East respiratory syndrome coronavirus (MERS-CoV) utilizes dipeptidyl peptidase 4 (DPP4) as an entry receptor. Mouse DPP4 (mDPP4) does not support MERS-CoV entry; however, changes at positions 288 and 330 can confer permissivity. Position 330 changes the charge and glycosylation state of mDPP4. We show that glycosylation is a major factor impacting DPP4 receptor function. These results provide insight into DPP4 species-specific differences impacting MERS-CoV host range and may inform MERS-CoV mouse model development.

Published

2015

37. Generation of a Transgenic Mouse Model of Middle East Respiratory Syndrome Coronavirus Infection and Disease

Author

Bi Hung Peng, Xinrong Tao, Chien Te K. Tseng, Maki Wakamiya, Teh Sheng Chan, Robert B. Couch, Tania Garron, Anurodh S. Agrawal, and Plazi

Subjects

Genetically modified mouse, Time Factors, Coronaviridae, Middle East respiratory syndrome coronavirus, Dipeptidyl Peptidase 4, Transgene, Receptor expression, Immunology, Gene Expression, Mice, Transgenic, Spleen, Biology, medicine.disease_cause, Microbiology, virus-host, Pathogenesis, pathogen-host, Virology, medicine, Animals, Humans, biotic relations, Viridae, biotic associations, corona viruses, Animal Structures, covid, pathogens, Viral Load, biotic interaction, Disease Models, Animal, medicine.anatomical_structure, covid-19, Viral replication, Insect Science, Middle East Respiratory Syndrome Coronavirus, Pathogenesis and Immunity, Coronavirus Infections, Viral load, CETAF-taskforce

Abstract

The emergence of Middle East respiratory syndrome-coronavirus (MERS-CoV) in the Middle East since 2012 has caused more than 900 human infections with ∼40% mortality to date. Animal models are needed for studying pathogenesis and for development of preventive and therapeutic agents against MERS-CoV infection. Nonhuman primates (rhesus macaques and marmosets) are expensive models of limited availability. Although a mouse lung infection model has been described using adenovirus vectors expressing human CD26/dipeptidyl peptidase 4 (DPP4), it is believed that a transgenic mouse model is needed for MERS-CoV research. We have developed this transgenic mouse model as indicated in this study. We show that transgenic mice globally expressing hCD26/DPP4 were fully permissive to MERS-CoV infection, resulting in relentless weight loss and death within days postinfection. High infectious virus titers were recovered primarily from the lungs and brains of mice at 2 and 4 days postinfection, respectively, whereas viral RNAs were also detected in the heart, spleen, and intestine, indicating a disseminating viral infection. Infected Tg + mice developed a progressive pneumonia, characterized by extensive inflammatory infiltration. In contrast, an inconsistent mild perivascular cuffing was the only pathological change associated with the infected brains. Moreover, infected Tg + mice were able to activate genes encoding for many antiviral and inflammatory mediators within the lungs and brains, coinciding with the high levels of viral replication. This new and unique transgenic mouse model will be useful for furthering knowledge of MERS pathogenesis and for the development of vaccine and treatments against MERS-CoV infection. IMPORTANCE Small and economical animal models are required for the controlled and extensive studies needed for elucidating pathogenesis and development of vaccines and antivirals against MERS. Mice are the most desirable small-animal species for this purpose because of availability and the existence of a thorough knowledge base, particularly of genetics and immunology. The standard small animals, mice, hamsters, and ferrets, all lack the functional MERS-CoV receptor and are not susceptible to infection. So, initial studies were done with nonhuman primates, expensive models of limited availability. A mouse lung infection model was described where a mouse adenovirus was used to transfect lung cells for receptor expression. Nevertheless, all generally agree that a transgenic mouse model expressing the DPP4 receptor is needed for MERS-CoV research. We have developed this transgenic mouse model as indicated in this study. This new and unique transgenic mouse model will be useful for furthering MERS research.

Published

2015

38. Presence of Middle East respiratory syndrome coronavirus antibodies in Saudi Arabia: a nationwide, cross-sectional, serological study

Author

Müller, Marcel A, Meyer, Benjamin, Corman, Victor M, Al-Masri, Malak, Turkestani, Abdulhafeez, Ritz, Daniel, Sieberg, Andrea, Aldabbagh, Souhaib, Bosch, Berend-J, Lattwein, Erik, Alhakeem, Raafat F, Assiri, Abdullah M, Albarrak, Ali M, Al-Shangiti, Ali M, Al-Tawfiq, Jaffar A, Wikramaratna, Paul, Alrabeeah, Abdullah A, Drosten, Christian, Memish, Ziad A, LS Virologie, dI&I I&I-1, Plazi, LS Virologie, and dI&I I&I-1

Subjects

Male, Veterinary medicine, Cross-sectional study, medicine.disease_cause, Antibodies, Viral, Serology, Seroepidemiologic Studies, Prevalence, Animal Husbandry, Viridae, media_common, education.field_of_study, biology, biotic associations, corona viruses, covid, Middle Aged, Infectious Diseases, covid-19, TheoryofComputation_LOGICSANDMEANINGSOFPROGRAMS, Middle East Respiratory Syndrome Coronavirus, Female, Antibody, Coronavirus Infections, Abattoirs, CETAF-taskforce, Adult, Camelus, Adolescent, Middle East respiratory syndrome coronavirus, Coronaviridae, Population, Saudi Arabia, Coronacrisis-Taverne, Article, virus-host, pathogen-host, medicine, Seroprevalence, media_common.cataloged_instance, Animals, Humans, biotic relations, Occupations, European union, education, Aged, ComputingMilieux_THECOMPUTINGPROFESSION, business.industry, pathogens, biotic interaction, Cross-Sectional Studies, TheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGES, biology.protein, business, Demography

Abstract

Summary Background Scientific evidence suggests that dromedary camels are the intermediary host for the Middle East respiratory syndrome coronavirus (MERS-CoV). However, the actual number of infections in people who have had contact with camels is unknown and most index patients cannot recall any such contact. We aimed to do a nationwide serosurvey in Saudi Arabia to establish the prevalence of MERS-CoV antibodies, both in the general population and in populations of individuals who have maximum exposure to camels. Methods In the cross-sectional serosurvey, we tested human serum samples obtained from healthy individuals older than 15 years who attended primary health-care centres or participated in a national burden-of-disease study in all 13 provinces of Saudi Arabia. Additionally, we tested serum samples from shepherds and abattoir workers with occupational exposure to camels. Samples were screened by recombinant ELISA and MERS-CoV seropositivity was confirmed by recombinant immunofluorescence and plaque reduction neutralisation tests. We used two-tailed Mann Whitney U exact tests, χ 2 , and Fisher's exact tests to analyse the data. Findings Between Dec 1, 2012, and Dec 1, 2013, we obtained individual serum samples from 10 009 individuals. Anti-MERS-CoV antibodies were confirmed in 15 (0·15%; 95% CI 0·09–0·24) of 10 009 people in six of the 13 provinces. The mean age of seropositive individuals was significantly younger than that of patients with reported, laboratory-confirmed, primary Middle Eastern respiratory syndrome (43·5 years [SD 17·3] vs 53·8 years [17·5]; p=0·008). Men had a higher antibody prevalence than did women (11 [0·25%] of 4341 vs two [0·05%] of 4378; p=0·028) and antibody prevalence was significantly higher in central versus coastal provinces (14 [0·26%] of 5479 vs one [0·02%] of 4529; p=0·003). Compared with the general population, seroprevalence of MERS-CoV antibodies was significantly increased by 15 times in shepherds (two [2·3%] of 87, p=0·0004) and by 23 times in slaughterhouse workers (five [3·6%] of 140; p Interpretation Seroprevalence of MERS-CoV antibodies was significantly higher in camel-exposed individuals than in the general population. By simple multiplication, a projected 44 951 (95% CI 26 971–71 922) individuals older than 15 years might be seropositive for MERS-CoV in Saudi Arabia. These individuals might be the source of infection for patients with confirmed MERS who had no previous exposure to camels. Funding European Union, German Centre for Infection Research, Federal Ministry of Education and Research, German Research Council, and Ministry of Health of Saudi Arabia.

Published

2015

39. Asymptomatic Middle East Respiratory Syndrome Coronavirus Infection in Rabbits

Author

Lisette B. Provacia, Koert J. Stittelaar, Ron A. M. Fouchier, Saskia L. Smits, Geert van Amerongen, Theo M. Bestebroer, Judith M. A. van den Brand, V. Stalin Raj, Sarah Getu, Leon de Waal, Georges M. G. M. Verjans, Bart L. Haagmans, Albert D. M. E. Osterhaus, Thijs Kuiken, Plazi, and Virology

Subjects

viruses, Respiratory System, medicine.disease_cause, Mice, Cricetinae, Viridae, Respiratory system, Non-U.S. Gov't, Lung, Research Support, Non-U.S. Gov't, biotic associations, corona viruses, virus diseases, covid, respiratory system, Virus Shedding, medicine.anatomical_structure, covid-19, Middle East Respiratory Syndrome Coronavirus, Female, Rabbits, medicine.symptom, Coronavirus Infections, CETAF-taskforce, Coronaviridae, Middle East respiratory syndrome coronavirus, Immunology, Biology, Research Support, Microbiology, Asymptomatic, Virus, virus-host, N.I.H, Research Support, N.I.H., Extramural, pathogen-host, Virology, Journal Article, medicine, Animals, biotic relations, Viral shedding, Asymptomatic Diseases, Animal, Extramural, pathogens, biotic interaction, respiratory tract diseases, Disease Models, Animal, Insect Science, Disease Models, Pathogenesis and Immunity, Respiratory tract

Abstract

The ability of Middle East respiratory syndrome coronavirus (MERS-CoV) to infect small animal species may be restricted given the fact that mice, ferrets, and hamsters were shown to resist MERS-CoV infection. We inoculated rabbits with MERS-CoV. Although virus was detected in the lungs, neither significant histopathological changes nor clinical symptoms were observed. Infectious virus, however, was excreted from the upper respiratory tract, indicating a potential route of MERS-CoV transmission in some animal species.

Published

2015

40. Discovery, diversity and evolution of novel coronaviruses sampled from rodents in China

Author

Wen Ping Guo, Cai Qiao Wang, Yong-Zhen Zhang, Wen Wang, Shuang Ge, Ming-Hui Li, Mang Shi, Miao Ruo Wang, Sheng Hua Mei, Run-Hong Zhou, Xian Dan Lin, Edward C. Holmes, and Plazi

Subjects

Rodent, viruses, medicine.disease_cause, law.invention, Mice, law, Viridae, Phylogeny, Coronavirus, Genetics, Phylogenetic tree, biology, biotic associations, corona viruses, virus diseases, covid, covid-19, Spike Glycoprotein, Coronavirus, Recombinant DNA, CETAF-taskforce, China, Lineage (genetic), Coronaviridae, Evolution, Molecular Sequence Data, Rodentia, Genome, Viral, Rodents, Article, virus-host, Evolution, Molecular, pathogen-host, biology.animal, Virology, medicine, Animals, Humans, biotic relations, Gene, Disease Reservoirs, Coronavirus, Rat, Genetic Variation, RNA, pathogens, biotic interaction, biology.organism_classification, Recombination, Rats, Betacoronavirus

Abstract

Although rodents are important reservoirs for RNA viruses, to date only one species of rodent coronavirus (CoV) has been identified. Herein, we describe a new CoV, denoted Lucheng Rn rat coronavirus (LRNV), and novel variants of two Betacoronavirus species termed Longquan Aa mouse coronavirus (LAMV) and Longquan Rl rat coronavirus (LRLV), that were identified in a survey of 1465 rodents sampled in China during 2011–2013. Phylogenetic analysis revealed that LAMV and LRLV fell into lineage A of the genus Betacoronavirus, which included CoVs discovered in humans and domestic and wild animals. In contrast, LRNV harbored by Rattus norvegicus formed a distinct lineage within the genus Alphacoronavirus in the 3CLpro, RdRp, and Hel gene trees, but formed a more divergent lineage in the N and S gene trees, indicative of a recombinant origin. Additional recombination events were identified in LRLV. Together, these data suggest that rodents may carry additional unrecognized CoVs., Highlights • A novel coronavirus (CoV) was identified in rodents from China. • Three species of CoVs are co-circulating in rodents in Zhejiang province, China. • Recombination events were observed in the newly identified rodent CoVs.

Published

2015

41. MERS-CoV Infection of Alpaca in a Region Where MERS-CoV is Endemic

Author

V. Stalin Raj, Robert H.G. Kohl, Francois Le Grange, Marion Koopmans, Hamad Al-Romaihi, Berend Jan Bosch, Bart L. Haagmans, Elmoubasher Farag, Chantal Reusken, Erwin de Bruin, Chrispijn Schilp, Plazi, and Virology

Subjects

0301 basic medicine, Veterinary medicine, Letter, Epidemiology, viruses, lcsh:Medicine, Antibodies, Viral, medicine.disease_cause, Vicugna pacos, Animal Diseases, MERS-CoV, Viridae, 2. Zero hunger, education.field_of_study, biology, biotic associations, corona viruses, SARS-CoV, covid, Lama, 3. Good health, Infectious Diseases, covid-19, TheoryofComputation_LOGICSANDMEANINGSOFPROGRAMS, RNA, Viral, Livestock, Disease Susceptibility, Vicugna, Coronavirus Infections, Camelids, New World, CETAF-taskforce, alpaca, Microbiology (medical), Coronaviridae, Middle East respiratory syndrome coronavirus, 030106 microbiology, Population, Coronacrisis-Taverne, virus-host, lcsh:Infectious and parasitic diseases, 03 medical and health sciences, dromedary, pathogen-host, medicine, biology.domesticated_animal, Animals, lcsh:RC109-216, biotic relations, Letters to the Editor, education, Qatar, severe acute respiratory syndrome coronavirus, ComputingMilieux_THECOMPUTINGPROFESSION, business.industry, MERS-CoV Infection of Alpaca in a Region Where MERS-CoV is Endemic, lcsh:R, pathogens, biotic interaction, biology.organism_classification, zoonoses, TheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGES, 030104 developmental biology, Herd, camelid, business, Camelid

Abstract

To the Editor: Accumulating evidence indicates that dromedaries (Camelus dromedarius) are a reservoir for zoonotic transmission of Middle East respiratory syndrome coronavirus (MERS-CoV). Although numerous studies have looked at other livestock in the Middle East region, evidence for MERS-CoV infection has only been found in dromedaries (1). Extensive and continuous circulation of MERS-CoV occurs in the Al Shahaniya region of Qatar, most likely because of the presence of an international camel racing track and numerous barns holding camels (2,3). In April 2015, we investigated the MERS-CoV infection status of 15 healthy alpacas (Vicugna pacos) in a herd of 20 animals and 10 healthy dromedaries in a herd of 25 animals at a farm in this region (Technical Appendix). The herds were located at a distance of ≈200 m from each other within the barn complex and were cared for by the same animal workers, who lived in a common house between the herds at the complex. Both the alpacas and camels were kept as hobby animals. Serum samples were collected from all 25 animals. Nasal swabs were collected from all camels, whereas nasal, rectal, and oral swab specimens were collected only from a subset of the alpacas (Technical Appendix) because of logistical constraints. The serum samples were tested for IgG antibodies reactive with the S1 antigens of MERS-CoV and severe acute respiratory syndrome coronavirus (SARS-CoV), and titers were calculated as described previously (4,5). MERS-CoV reactivity was confirmed by using a 90% plaque-reduction neutralization test (PRNT90) (3). Swab specimens were analyzed for MERS-CoV RNA by a screening PCR targeting the upE gene (6). MERS-CoV–specific antibodies were detected in all alpacas and all but 1 camel by protein microarray; reciprocal titers ranged from 49 to 773 for the alpacas and were >1,280 for the camels (Figure, panel A). PRNT90 testing confirmed the presence of MERS-CoV–specific antibodies; reciprocal neutralizing titers ranged from 80 to 320 for the alpacas and from 80 to >2,560 for 9 camels (Figure, panel B). All swab specimens were negative by PCR (Technical Appendix). None of the serum samples were reactive to SARS-CoV S1. The microarray was also conducted for bovine CoV and human CoV-229E antigens, which were used as a proxy for the serologically closely related dromedary betacoronavirus-1 HKU23 and 229E-related camelid alphacoronaviruses, respectively (7). Positive binding was detected for both antigens in alpaca and dromedary (data not shown). Figure Column scatterplots of MERS-CoV reactivity of serum samples from alpaca (n = 15) and dromedaries (n = 10) in the Al Shahaniya region of Qatar, April 2015. A) Plot of alpaca and dromedary serum titers of antibodies specific for S1 antigens of 2 coronaviruses ... Our observations prove the susceptibility of alpacas for natural MERS-CoV infection and lay the foundation for future studies to determine the potential of alpacas as another livestock reservoir for MERS-CoV. The alpacas in this study were the only alpacas in Qatar at the time and were located in a region where MERS-CoV is endemic. In a previous study, by using the same microarray technology, we found no evidence for MERS-CoV infection in alpacas from regions where MERS-CoV is not endemic (4). Although a study by Eckerle et al. demonstrated the potential of MERS-CoV to infect alpaca kidney cells in vitro (8) and alignment of mammalian DPP4 indicate that the 14 residues interacting with the MERS-CoV receptor binding domain of alpaca DPP4 are identical to that of dromedary DPP4 (Technical Appendix), the in vivo susceptibility of alpacas remained to be determined. The observed natural susceptibility of alpacas to MERS-CoV infection potentiates a broadening of the geographic range of MERS-CoV circulation to areas with large populations of alpacas. Alpacas are New World camelids, and the worldwide population of alpacas is estimated at 3 million animals, with ≈94% living in the high Andean regions of South America (Peru, Bolivia, Chile and Argentina), of which most are in Peru (constituting ≈88% of the world alpaca population) (http://lib.icimod.org/record/23682). Alpacas are increasingly being kept outside South America, mainly for their fleece, with estimated numbers in 2014 reaching 230,000 in the United States (http://lib.icimod.org/record/23682), 35,000 in the United Kingdom (http://www.bas-uk.com), and 150,000 in Australia (http://www.alpaca.asn.au). Although MERS-CoV has not been found in camelids other than dromedaries outside the Arabian Peninsula so far (9), our observations raise the question of whether other camelids could become infected if MERS-CoV were introduced to regions with large populations of alpacas and possibly other closely related camelids of the genera Lama, Vicugna, and Camelus. Because the date of infection of the alpacas and camels in this study is not known, we cannot speculate on the level of susceptibility of alpacas versus dromedaries based on the observed differences in antibody titers, which were lower in alpacas. It remains to be determined whether alpacas, in parallel with dromedaries, will actually shed MERS-CoV and are capable of independent maintenance of the virus in their population. Differences in susceptibility to viral pathogens between New and Old World camelids have been observed before (10). Therefore, understanding the risk requires further assessment of the reservoir competence of alpacas for MERS-CoV (e.g., through experimental infections) and an assessment of MERS-CoV–related viruses present in alpacas and other camelids in different parts of the world. Technical Appendix. Overview of background data and study results of alpaca and dromedary cohorts. Click here to view.(394K, pdf)

Published

2016

42. The persistent prevalence and evolution of cross-family recombinant coronavirus GCCDC1 among a bat population: a two-year follow-up

Author

Obameso, Joseph O., Li, Hong, Jia, Hao, Han, Min, Zhu, Shiyan, Huang, Canping, Zhao, Yuhui, Zhao, Min, Bai, Yu, Yuan, Fei, Zhao, Honglan, Peng, Xia, Xu, Wen, Tan, Wenjie, Zhao, Yingze, Yuen, Kwok-Yung, Liu, William J., Lu, Lin, Gao, George F., and Plazi

Subjects

China, animal structures, Coronaviridae, Evolution, viruses, coronavirus, virus-host, Genetic, pathogen-host, Chiroptera, Prevalence, bat population, Animals, Viral, biotic relations, Viridae, Phylogeny, Genome, biotic associations, corona viruses, Molecular, covid, pathogens, DNA, biotic interaction, Recombination, covid-19, Genes, RNA, Coronavirus Infections, Sequence Analysis, Follow-Up Studies, CETAF-taskforce

Abstract

Bats are connected with the increasing numbers of emerging and re-emerging viruses that may break the species barrier and spread into the human population. Coronaviruses are one of the most common viruses discovered in bats, which were considered as the natural source of recent human-susceptible coronaviruses, i.e. SARS-COV and MERS-CoV. Our previous study reported the discovery of a bat-derived putative cross-family recombinant coronavirus with a reovirus gene p10, named as Ro-BatCoV GCCDC1. In this report, through a two-year follow-up of a special bat population in one specific cave of south China, we illustrate that Ro-BatCoV GCCDC1 persistently circulates among bats. Notably, through the longitudinal observation, we identified the dynamic evolution of Ro-BatCoV GCCDC1 in bats represented by continuously recombination events. Our study provides the first glimpse of the virus evolution in one longitudinally observed bat population cohort and underlines the surveillance and pre-warning of potential interspecies transmittable viruses in bats.

Published

2017

43. Virome analysis for identification of novel mammalian viruses in bats from Southeast China

Author

Biao He, Jin Zhu, Yi Wang, Hui Qian, Fuqiang Ye, Dan Hu, Zhu Changqiang, Wenrong Xu, Changjun Wang, Yang Lu, Jia-feng Chen, Tan Weilong, Ai Lele, Ding Chenxi, Youjun Feng, and Plazi

Subjects

0301 basic medicine, viruses, lcsh:Medicine, medicine.disease_cause, Polymerase Chain Reaction, Zoonoses, Chiroptera, Viridae, lcsh:Science, Lung, Phylogeny, Coronavirus, Genetics, Multidisciplinary, biology, biotic associations, corona viruses, covid, Intestines, covid-19, Virus Diseases, Viruses, Sequence Analysis, CETAF-taskforce, China, Sequence analysis, Coronaviridae, Article, Astrovirus, virus-host, 03 medical and health sciences, pathogen-host, Plant virus, medicine, Animals, Human virome, biotic relations, lcsh:R, pathogens, Sequence Analysis, DNA, DNA, biology.organism_classification, biotic interaction, Virology, 030104 developmental biology, Metagenomics, Norovirus, lcsh:Q, Circovirus

Abstract

Bats have been shown as important mammal resevoirs to carry a variety of zoonotic pathogens. To analyze pathogenic species in bats from southeast coastal regions of China, we performed metagenomic sequencing technology for high throughput sequencing of six sentinels from southeast coastal area of China. We obtained 5,990,261 high quality reads from intestine and lung tissue of 235 bats, including 2,975,371 assembled sequences. 631,490 reads predicted overlapping sequences for the open reading frame (ORF), which accounts for 2.37% of all the sequences (15,012/631,490). Further, the acquired virus sequences were classified into 25 viral families, including 16 vertebrate viruses, four plant viruses and five insect viruses. All bat samples were screened by specific PCR and phylogenetic analysis. Using these techniques, we discovered many novel bat viruses and some bat viruses closely-related to known human/animal pathogens, including coronavirus, norovirus, adenovirus, bocavirus, astrovirus, and circovirus. In summary, this study extended our understanding of bats as the viral reservoirs. Additionally, it also provides a basis for furher studying the transmission of viruses from bats to humans.

Published

2017

44. Detection of diverse viruses in alimentary specimens of bats in Macau

Author

Xingwen Peng, Jie Liang, Zhengli Shi, Qin Zhang, Hui Liu, Yi Wu, Xing-Lou Yang, Qi Liu, Hon-Pio Kan, Kai-Chin Wong, Bei Li, Si-Nga Chek, Libiao Zhang, Xiangyang He, and Plazi

Subjects

0301 basic medicine, viral detection, Coronaviridae, viruses, Immunology, Population structure, coronavirus, medicine.disease_cause, virus-host, 03 medical and health sciences, Feces, paramyxovirus, Hepatitis E virus, pathogen-host, Virology, Chiroptera, medicine, Animals, biotic relations, Viridae, Coronavirus, Hantavirus, bat virus, Macau, biology, biotic associations, corona viruses, covid, pathogens, adenovirus, Biodiversity, biology.organism_classification, biotic interaction, Hepatitis a virus, 030104 developmental biology, covid-19, Viruses, Molecular Medicine, Myotis ricketti, Disease transmission, Research Article, CETAF-taskforce

Abstract

Bats carry a variety of viruses, and some of them cause public health problems. Macau, which is famous for its gambling industry, has a complex population structure. The globalization in such an international metropolis has enhanced the chance of disease transmission. Therefore, surveillance of zoonotic viruses is necessary for the early warning of potential emerging infectious diseases. Here, we report the first surveillance of bat viruses in Macau. In this study, we collected 1004 samples involving 10 bat species from 7 sites from April 2015 to May 2016, and examined the presence of viruses using nucleic acid-based methods. Coronaviruses, adenoviruses and paramyxoviruses were detected in these samples, with a high prevalence of coronaviruses. While, none was positive for hepatitis A virus, hepatitis E virus or hantavirus. Co-infections are not common in those bat species, but coronavirus HKU6 and adenovirus can be found commonly occurred in Myotis ricketti.

Published

2017

45. Searching for animal models and potential target species for emerging pathogens: Experience gained from Middle East respiratory syndrome (MERS) coronavirus

Author

Júlia Vergara-Alert, Albert Bensaid, Joaquim Segalés, Enric Vidal, and Plazi

Subjects

0301 basic medicine, viruses, Viral pathogenesis, Disease, medicine.disease_cause, RDB, receptor binding domain, Case fatality rate, Viridae, PI, post-inoculation, lcsh:R5-920, Review Paper, Transmission (medicine), biotic associations, corona viruses, HCoV, human coronaviruses, virus diseases, MERS-CoV, Middle East respiratory syndrome coronavirus, covid, 3. Good health, Hdpp4, human dipeptidyl peptidase-4, Infectious Diseases, covid-19, TheoryofComputation_LOGICSANDMEANINGSOFPROGRAMS, Emerging pathogen, lcsh:Medicine (General), BSL, biosafety level, CETAF-taskforce, NHP, Nonhuman primates, Middle East respiratory syndrome coronavirus, Coronaviridae, SARS-CoV, severe acute respiratory syndrome coronavirus, Biology, WHO, World Health Organization, virus-host, hDPP4, human dipeptidyl peptidase-4, 03 medical and health sciences, pathogen-host, Coronavirus (CoV), medicine, Middle East respiratory syndrome (MERS), Animal model, biotic relations, Reservoir, Ebola virus, ComputingMilieux_THECOMPUTINGPROFESSION, Public Health, Environmental and Occupational Health, Outbreak, pathogens, medicine.disease, biotic interaction, FDA, Food and Drug Administration, URT, upper respiratory tract, Virology, 030104 developmental biology, TheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGES, Immunology, Middle East respiratory syndrome, DPP4, dipeptidyl peptidase-4

Abstract

Emerging and re-emerging pathogens represent a substantial threat to public health, as demonstrated with numerous outbreaks over the past years, including the 2013-2016 outbreak of Ebola virus in western Africa. Coronaviruses are also a threat for humans, as evidenced in 2002/2003 with infection by the severe acute respiratory syndrome coronavirus (SARS-CoV), which caused more than 8000 human infections with 10% fatality rate in 37 countries. Ten years later, a novel human coronavirus (Middle East respiratory syndrome coronavirus, MERS-CoV), associated with severe pneumonia, arose in the Kingdom of Saudi Arabia. Until December 2016, MERS has accounted for more than 1800 cases and 35% fatality rate. Finding an animal model of disease is key to develop vaccines or antivirals against such emerging pathogens and to understand its pathogenesis. Knowledge of the potential role of domestic livestock and other animal species in the transmission of pathogens is of importance to understand the epidemiology of the disease. Little is known about MERS-CoV animal host range. In this paper, experimental data on potential hosts for MERS-CoV is reviewed. Advantages and limitations of different animal models are evaluated in relation to viral pathogenesis and transmission studies. Finally, the relevance of potential new target species is discussed.

Published

2017

46. Livestock Susceptibility to Infection with Middle East Respiratory Syndrome Coronavirus

Author

Vergara-Alert, Júlia, van den Brand, Judith M A, Widagdo, W, Muñoz, Marta, Raj, V Stalin, Schipper, Debby, Solanes, David, Cordón, Ivan, Bensaid, Albert, Haagmans, Bart L, Segalés, Joaquim, Veterinair Pathologisch Diagnostisch Cnt, dPB CR, dPB I&I, Virology, Plazi, Veterinair Pathologisch Diagnostisch Cnt, dPB CR, and dPB I&I

Subjects

pig, 0301 basic medicine, dipeptidyl peptidase-4, Disease reservoir, Swine, Epidemiology, viruses, coronavirus, lcsh:Medicine, medicine.disease_cause, Animal Diseases, MERS-CoV, Chlorocebus aethiops, Public Health Surveillance, Viridae, llama, Nose, Coronavirus, Middle East respiratory syndrome, biotic associations, corona viruses, covid, horse, Infectious Diseases, medicine.anatomical_structure, covid-19, TheoryofComputation_LOGICSANDMEANINGSOFPROGRAMS, Middle East Respiratory Syndrome Coronavirus, RNA, Viral, Disease Susceptibility, Coronavirus Infections, CETAF-taskforce, Microbiology (medical), Livestock Susceptibility to Infection with Middle East Respiratory Syndrome Coronavirus, sheep, reservoir, Middle East respiratory syndrome coronavirus, Coronaviridae, 030106 microbiology, Enzyme-Linked Immunosorbent Assay, DPP4, Biology, lcsh:Infectious and parasitic diseases, virus-host, 03 medical and health sciences, Neutralization Tests, MERS, pathogen-host, medicine, Animals, lcsh:RC109-216, Horses, biotic relations, Seroconversion, Vero Cells, Disease Reservoirs, ComputingMilieux_THECOMPUTINGPROFESSION, Research, animal model, lcsh:R, Horse, pathogens, medicine.disease, biotic interaction, Virology, Immunity, Humoral, livestock, 030104 developmental biology, TheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGES, Respiratory tract

Abstract

Middle East respiratory syndrome (MERS) cases continue to be reported, predominantly in Saudi Arabia and occasionally other countries. Although dromedaries are the main reservoir, other animal species might be susceptible to MERS coronavirus (MERS-CoV) infection and potentially serve as reservoirs. To determine whether other animals are potential reservoirs, we inoculated MERS-CoV into llamas, pigs, sheep, and horses and collected nasal and rectal swab samples at various times. The presence of MERS-CoV in the nose of pigs and llamas was confirmed by PCR, titration of infectious virus, immunohistochemistry, and in situ hybridization; seroconversion was detected in animals of both species. Conversely, in sheep and horses, virus-specific antibodies did not develop and no evidence of viral replication in the upper respiratory tract was found. These results prove the susceptibility of llamas and pigs to MERS-CoV infection. Thus, the possibility of MERS-CoV circulation in animals other than dromedaries, such as llamas and pigs, is not negligible.

Published

2017

47. Vaccines against Middle East respiratory syndrome coronavirus for humans and camels

Author

Alharbi, Naif Khalaf and Plazi

Subjects

endocrine system, Camelus, Coronaviridae, Middle East Respiratory Syndrome, Drug Evaluation, Preclinical, Saudi Arabia, Reviews, MERS coronavirus vaccine, Review, virus-host, pathogen-host, Animals, Humans, biotic relations, Viridae, biotic associations, corona viruses, Viral Vaccines, covid, pathogens, biotic interaction, covid-19, Middle East Respiratory Syndrome Coronavirus, Coronavirus Infections, camel vaccine, CETAF-taskforce

Abstract

Summary Middle East respiratory syndrome coronavirus (MERS‐CoV) is caused by a novel betacoronavirus that was isolated in late 2012 in Saudi Arabia. The viral infections have been reported in more than 1700 humans, ranging from asymptomatic or mild cases to severe pneumonia with a mortality rate of 40%. It is well documented now that dromedary camels contract the infection and shed the virus without notable symptoms, and such animals had been infected by at least the early 1980s. The mechanism of camel to human transmission is still not clear, but several primary cases have been associated with camel contact. There is no approved antiviral drug or vaccine against MERS‐CoV despite the active research in this area. Vaccine candidates have been developed using various platforms and regimens and have been tested in several animal models. Here, this article reviews the published studies on MERS‐CoV vaccines with more focus on vaccines tested in large animals, including camels. It is foreseeable that the 1‐health approach could be the best way of tackling the MERS‐CoV endemic in the Arabian Peninsula, by using the mass vaccination of camels in the affected areas to block camel to human transmission. Camel vaccines can be developed in a faster time with fewer regulations and lower costs and could clear this virus from the Arabian Peninsula if accompanied by efficient public health measures.

Published

2017

48. Middle East respiratory syndrome coronavirus: epidemiology and disease control measures

Author

Jaffar A. Al-Tawfiq, Ziad A. Memish, and Plazi

Subjects

endocrine system, Veterinary medicine, Pediatrics, medicine.medical_specialty, Coronaviridae, Middle East respiratory syndrome coronavirus, viruses, education, Saudi Arabia, Review, medicine.disease_cause, Virus, virus-host, Serology, lcsh:Infectious and parasitic diseases, MERS, pathogen-host, Epidemiology, medicine, Infection control, Pharmacology (medical), lcsh:RC109-216, biotic relations, Viridae, Pharmacology, control measures, ComputingMilieux_THECOMPUTINGPROFESSION, Transmission (medicine), business.industry, biotic associations, transmission, corona viruses, virus diseases, Outbreak, covid, pathogens, biotic interaction, Disease control, respiratory tract diseases, TheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGES, Infectious Diseases, covid-19, TheoryofComputation_LOGICSANDMEANINGSOFPROGRAMS, epidemiology, business, CETAF-taskforce

Abstract

Jaffar A Al-Tawfiq,1,2 Ziad A Memish3,4 1Johns Hopkins Aramco Healthcare, Dhahran, Saudi Arabia; 2Indiana University School of Medicine, Indianapolis, IN, USA; 3Ministry of Health, 4Alfaisal University, Riyadh, Saudi Arabia Abstract: The emergence of Middle East respiratory syndrome coronavirus (MERS-CoV) infection in 2012 resulted in an increased concern of the spread of the infection globally. MERS-CoV infection had previously caused multiple health-care-associated outbreaks and resulted in transmission of the virus within families. Community onset MERS-CoV cases continue to occur. Dromedary camels are currently the most likely animal to be linked to human MERS-CoV cases. Serologic tests showed significant infection in adult camels compared to juvenile camels. The control of MERS-CoV infection relies on prompt identification of cases within health care facilities, with institutions applying appropriate infection control measures. In addition, determining the exact route of transmission from camels to humans would further add to the control measures of MERS-CoV infection. Keywords: MERS, Middle East respiratory syndrome coronavirus, epidemiology, control measures, transmission, Saudi Arabia

Published

2014

49. Host Species Restriction of Middle East Respiratory Syndrome Coronavirus through Its Receptor, Dipeptidyl Peptidase 4

Author

Kerri L. Miazgowicz, Shauna Milne-Price, Neeltje van Doremalen, Shelly J. Robertson, Trenton Bushmaker, Jiang Zhu, Jason S. McLellan, Dana P. Scott, Vincent J. Munster, Joerg Kinne, and Plazi

Subjects

viruses, Virus Replication, medicine.disease_cause, Mice, Cricetinae, Baby hamster kidney cell, Viridae, Coronavirus, Goats, biotic associations, corona viruses, virus diseases, covid, respiratory system, Virus-Cell Interactions, Respiratory Syncytial Viruses, covid-19, TheoryofComputation_LOGICSANDMEANINGSOFPROGRAMS, Receptors, Virus, Protein Binding, CETAF-taskforce, Primates, Camelus, Livestock, Coronaviridae, Middle East respiratory syndrome coronavirus, Dipeptidyl Peptidase 4, Immunology, Hamster, Biology, Microbiology, Host Specificity, Cell Line, virus-host, Middle East, pathogen-host, Cell Line, Tumor, Virology, medicine, Animals, Humans, biotic relations, Vero Cells, Dipeptidyl peptidase-4, Tropism, Sheep, ComputingMilieux_THECOMPUTINGPROFESSION, Ferrets, pathogens, biotic interaction, Macaca mulatta, respiratory tract diseases, Mice, Inbred C57BL, Viral Tropism, TheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGES, Viral replication, Insect Science, Tissue tropism, Cattle, Receptors, Coronavirus

Abstract

Middle East respiratory syndrome coronavirus (MERS-CoV) emerged in 2012. Recently, the MERS-CoV receptor dipeptidyl peptidase 4 (DPP4) was identified and the specific interaction of the receptor-binding domain (RBD) of MERS-CoV spike protein and DPP4 was determined by crystallography. Animal studies identified rhesus macaques but not hamsters, ferrets, or mice to be susceptible for MERS-CoV. Here, we investigated the role of DPP4 in this observed species tropism. Cell lines of human and nonhuman primate origin were permissive of MERS-CoV, whereas hamster, ferret, or mouse cell lines were not, despite the presence of DPP4. Expression of human DPP4 in nonsusceptible BHK and ferret cells enabled MERS-CoV replication, whereas expression of hamster or ferret DPP4 did not. Modeling the binding energies of MERS-CoV spike protein RBD to DPP4 of human (susceptible) or hamster (nonsusceptible) identified five amino acid residues involved in the DPP4-RBD interaction. Expression of hamster DPP4 containing the five human DPP4 amino acids rendered BHK cells susceptible to MERS-CoV, whereas expression of human DPP4 containing the five hamster DPP4 amino acids did not. Using the same approach, the potential of MERS-CoV to utilize the DPP4s of common Middle Eastern livestock was investigated. Modeling of the DPP4 and MERS-CoV RBD interaction predicted the ability of MERS-CoV to bind the DPP4s of camel, goat, cow, and sheep. Expression of the DPP4s of these species on BHK cells supported MERS-CoV replication. This suggests, together with the abundant DPP4 presence in the respiratory tract, that these species might be able to function as a MERS-CoV intermediate reservoir. IMPORTANCE The ongoing outbreak of Middle East respiratory syndrome coronavirus (MERS-CoV) has caused 701 laboratory-confirmed cases to date, with 249 fatalities. Although bats and dromedary camels have been identified as potential MERS-CoV hosts, the virus has so far not been isolated from any species other than humans. The inability of MERS-CoV to infect commonly used animal models, such as hamster, mice, and ferrets, indicates the presence of a species barrier. We show that the MERS-CoV receptor DPP4 plays a pivotal role in the observed species tropism of MERS-CoV and subsequently identified the amino acids in DPP4 responsible for this restriction. Using a combined modeling and experimental approach, we predict that, based on the ability of MERS-CoV to utilize the DPP4 of common Middle East livestock species, such as camels, goats, sheep, and cows, these form a potential MERS-CoV intermediate host reservoir species.

Published

2014

50. Evidence for Camel-to-Human Transmission of MERS Coronavirus

Author

Ahmed M. Hassan, Anwar M. Hashem, Esam I. Azhar, Tariq A. Madani, Muneera S. Al-Saeed, Sherif A. El-Kafrawy, Suha A. Farraj, and Plazi

Subjects

endocrine system, Dromedary camel, Isolation (health care), Coronaviridae, Middle East respiratory syndrome coronavirus, viruses, Biology, medicine.disease_cause, virus-host, Serology, pathogen-host, medicine, biotic relations, Viridae, Close contact, rhinorrhea, ComputingMilieux_THECOMPUTINGPROFESSION, Transmission (medicine), biotic associations, corona viruses, virus diseases, covid, pathogens, General Medicine, respiratory system, biotic interaction, Virology, respiratory tract diseases, TheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGES, covid-19, Nasal Swab, TheoryofComputation_LOGICSANDMEANINGSOFPROGRAMS, medicine.symptom, CETAF-taskforce

Abstract

We describe the isolation and sequencing of Middle East respiratory syndrome coronavirus (MERS-CoV) obtained from a dromedary camel and from a patient who died of laboratory-confirmed MERS-CoV infection after close contact with camels that had rhinorrhea. Nasal swabs collected from the patient and from one of his nine camels were positive for MERS-CoV RNA. In addition, MERS-CoV was isolated from the patient and the camel. The full genome sequences of the two isolates were identical. Serologic data indicated that MERS-CoV was circulating in the camels but not in the patient before the human infection occurred. These data suggest that this fatal case of human MERS-CoV infection was transmitted through close contact with an infected camel.

Published

2014