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1. Crimean–Congo haemorrhagic fever virus uses LDLR to bind and enter host cells

Author

Monteil, Vanessa M., Wright, Shane C., Dyczynski, Matheus, Kellner, Max J., Appelberg, Sofia, Platzer, Sebastian W., Ibrahim, Ahmed, Kwon, Hyesoo, Pittarokoilis, Ioannis, Mirandola, Mattia, Michlits, Georg, Devignot, Stephanie, Elder, Elizabeth, Abdurahman, Samir, Bereczky, Sándor, Bagci, Binnur, Youhanna, Sonia, Aastrup, Teodor, Lauschke, Volker M., Salata, Cristiano, Elaldi, Nazif, Weber, Friedemann, Monserrat, Nuria, Hawman, David W., Feldmann, Heinz, Horn, Moritz, Penninger, Josef M., and Mirazimi, Ali

Published
2024
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2. Antibodies targeting the Crimean-Congo Hemorrhagic Fever Virus nucleoprotein protect via TRIM21

Author

Shanna S. Leventhal, Thomas Bisom, Dean Clift, Deepashri Rao, Kimberly Meade-White, Carl Shaia, Justin Murray, Evan A. Mihalakakos, Troy Hinkley, Steven J. Reynolds, Sonja M. Best, Jesse H. Erasmus, Leo C. James, Heinz Feldmann, and David W. Hawman

Subjects
Science
Abstract

Abstract Crimean-Congo Hemorrhagic Fever Virus (CCHFV) is a negative-sense RNA virus spread by Hyalomma genus ticks across Europe, Asia, and Africa. CCHF disease begins as a non-specific febrile illness which may progress into a severe hemorrhagic disease with no widely approved or highly efficacious interventions currently available. Recently, we reported a self-replicating, alphavirus-based RNA vaccine that expresses the CCHFV nucleoprotein and is protective against lethal CCHFV disease in mice. This vaccine induces high titers of non-neutralizing anti-NP antibodies and we show here that protection does not require Fc-gamma receptors or complement. Instead, vaccinated mice deficient in the intracellular Fc-receptor TRIM21 were unable to control the infection despite mounting robust CCHFV-specific immunity. We also show that passive transfer of NP-immune sera confers significant TRIM21-dependent protection against lethal CCHFV challenge. Together our data identifies TRIM21-mediated mechanisms as the Fc effector function of protective antibodies against the CCHFV NP and provides mechanistic insight into how vaccines against the CCHFV NP confer protection.

Published
2024
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5. Correction: On the Relationship Between Aquatic CO2 Concentration and Ecosystem Fluxes in Some of the World’s Key Wetland Types

Author

Richardson, Jessica L., Desai, Ankur R., Thom, Jonathan, Lindgren, Kim, Laudon, Hjalmar, Peichl, Matthias, Nilsson, Mats, Campeau, Audrey, Järveoja, Järvi, Hawman, Peter, Mishra, Deepak R., Smith, Dontrece, D’Acunha, Brenda, Knox, Sara H., Ng, Darian, Johnson, Mark S., Blackstock, Joshua, Malone, Sparkle L., Oberbauer, Steve F., Detto, Matteo, Wickland, Kimberly P., Forbrich, Inke, Weston, Nathaniel, Hung, Jacqueline K. Y., Edgar, Colin, Euskirchen, Eugenie S., Bret-Harte, Syndonia, Dobkowski, Jason, Kling, George, Kane, Evan S., Badiou, Pascal, Bogard, Matthew, Bohrer, Gil, O’Halloran, Thomas, Ritson, Jonny, Arias-Ortiz, Ariane, Baldocchi, Dennis, Oikawa, Patty, Shahan, Julie, and Matsumura, Maiyah

Published
2024
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6. A replicating RNA vaccine confers protection in a rhesus macaque model of Crimean-Congo hemorrhagic fever

Author

David W. Hawman, Shanna S. Leventhal, Kimberly Meade-White, Amit Khandhar, Justin Murray, Jamie Lovaglio, Carl Shaia, Greg Saturday, Troy Hinkley, Jesse Erasmus, and Heinz Feldmann

Subjects
Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Crimean-Congo hemorrhagic fever (CCHF) is a tick-borne febrile illness with a wide geographic distribution. In recent years the geographic range of Crimean-Congo hemorrhagic fever virus (CCHFV) and its tick vector have increased, placing an increasing number of people at risk of CCHFV infection. Currently, there are no widely available vaccines, and although the World Health Organization recommends ribavirin for treatment, its efficacy is unclear. Here we evaluate a promising replicating RNA vaccine in a rhesus macaque (Macaca mulatta) model of CCHF. This model provides an alternative to the established cynomolgus macaque model and recapitulates mild-to-moderate human disease. Rhesus macaques infected with CCHFV consistently exhibit viremia, detectable viral RNA in a multitude of tissues, and moderate pathology in the liver and spleen. We used this model to evaluate the immunogenicity and protective efficacy of a replicating RNA vaccine. Rhesus macaques vaccinated with RNAs expressing the CCHFV nucleoprotein and glycoprotein precursor developed robust non-neutralizing humoral immunity against the CCHFV nucleoprotein and had significant protection against the CCHFV challenge. Together, our data report a model of CCHF using rhesus macaques and demonstrate that our replicating RNA vaccine is immunogenic and protective in non-human primates after a prime-boost immunization.

Published
2024
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7. On the Relationship Between Aquatic CO2 Concentration and Ecosystem Fluxes in Some of the World’s Key Wetland Types

Author

Richardson, Jessica L., Desai, Ankur R., Thom, Jonathan, Lindgren, Kim, Laudon, Hjalmar, Peichl, Matthias, Nilsson, Mats, Campeau, Audrey, Järveoja, Järvi, Hawman, Peter, Mishra, Deepak R., Smith, Dontrece, D’Acunha, Brenda, Knox, Sara H., Ng, Darian, Johnson, Mark S., Blackstock, Joshua, Malone, Sparkle L., Oberbauer, Steve F., Detto, Matteo, Wickland, Kimberly P., Forbrich, Inke, Weston, Nathaniel, Hung, Jacqueline K. Y., Edgar, Colin, Euskirchen, Eugenie S., Bret-Harte, Syndonia, Dobkowski, Jason, Kling, George, Kane, Evan S., Badiou, Pascal, Bogard, Matthew, Bohrer, Gil, O’Halloran, Thomas, Ritson, Jonny, Arias-Ortiz, Ariane, Baldocchi, Dennis, Oikawa, Patty, Shahan, Julie, and Matsumura, Maiyah

Published
2024
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8. A 44-Nucleotide Region in the Chikungunya Virus 3′ UTR Dictates Viral Fitness in Disparate Host Cells

Author

Stephanie E. Ander, Kathryn S. Carpentier, Wes Sanders, Cormac J. Lucas, Austin J. Jolly, Cydney N. Johnson, David W. Hawman, Mark T. Heise, Nathaniel J. Moorman, and Thomas E. Morrison

Subjects
Chikungunya virus, CHIKV, 3′ UTR, viral fitness, RNA structure, SHAPE-MaP, Microbiology, QR1-502
Abstract

We previously reported that deletion of a 44-nucleotide element in the 3′ untranslated region (UTR) of the Chikungunya virus (CHIKV) genome enhances the virulence of CHIKV infection in mice. Here, we find that while this 44-nucleotide deletion enhances CHIKV fitness in murine embryonic fibroblasts in a manner independent of the type I interferon response, the same mutation decreases viral fitness in C6/36 mosquito cells. Further, the fitness advantage conferred by the UTR deletion in mammalian cells is maintained in vivo in a mouse model of CHIKV dissemination. Finally, SHAPE-MaP analysis of the CHIKV 3′ UTR revealed this 44-nucleotide element forms a distinctive two-stem-loop structure that is ablated in the mutant 3′ UTR without altering additional 3′ UTR RNA secondary structures.

Published
2024
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9. CD8+ T-cells target the Crimean-Congo haemorrhagic fever virus Gc protein to control the infection in wild-type miceResearch in context

Author

Deepashri Rao, Kimberly Meade-White, Shanna Leventhal, Evan Mihalakakos, Aaron Carmody, Heinz Feldmann, and David W. Hawman

Subjects
Crimean-Congo haemorrhagic fever, CCHFV, T-cells, Mouse model, Adaptive immunity, Medicine, Medicine (General), R5-920
Abstract

Summary: Background: Crimean-Congo haemorrhagic fever (CCHF) is a serious viral hemorrhagic fever caused by the CCHF virus (CCHFV). Spread by the bites of infected ticks or handling of viremic livestock, human disease is characterized by a non-specific febrile illness that can rapidly progress to fatal hemorrhagic disease. No vaccines or antivirals are available. Case fatality rates can vary but can be higher than 30%, although sub-clinical infections are often unrecognized and unreported. Yet, while most humans infected with CCHFV will survive the infection, often with little-to-no symptoms, the host responses that control the infection are unknown. Methods: Here we investigated the role of cellular immunity in control of CCHFV infection in an immunocompetent mouse model. Findings: We found that CD8+ T-cells are crucial for efficient control of the acute infection and rapidly acquired CCHFV-specific antiviral effector functions such as production of antiviral cytokines and degranulating in response to CCHFV peptides. We further identified the minimal CD8+ T-cell epitopes in the viral Gc proteins and that infection of mice lacking IFNγ resulted in worsened disease and higher viral loads. Interpretation: Together our data suggest that CD8+ T-cells are important for control of acute CCHFV infection likely through production of antiviral cytokines. Funding: This work was supported by the Intramural Research Program of the NIH.

Published
2023
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10. Species-specific MARCO-alphavirus interactions dictate chikungunya virus viremia

Author

Frances S. Li, Kathryn S. Carpentier, David W. Hawman, Cormac J. Lucas, Stephanie E. Ander, Heinz Feldmann, and Thomas E. Morrison

Subjects
CP: Microbiology, Biology (General), QH301-705.5
Abstract

Summary: Arboviruses are public health threats that cause explosive outbreaks. Major determinants of arbovirus transmission, geographic spread, and pathogenesis are the magnitude and duration of viremia in vertebrate hosts. Previously, we determined that multiple alphaviruses are cleared efficiently from murine circulation by the scavenger receptor MARCO (Macrophage receptor with collagenous structure). Here, we define biochemical features on chikungunya (CHIKV), o’nyong ’nyong (ONNV), and Ross River (RRV) viruses required for MARCO-dependent clearance in vivo. In vitro, MARCO expression promotes binding and internalization of CHIKV, ONNV, and RRV via the scavenger receptor cysteine-rich (SRCR) domain. Furthermore, we observe species-specific effects of the MARCO SRCR domain on CHIKV internalization, where those from known amplification hosts fail to promote CHIKV internalization. Consistent with this observation, CHIKV is inefficiently cleared from the circulation of rhesus macaques in contrast with mice. These findings suggest a role for MARCO in determining whether a vertebrate serves as an amplification or dead-end host following CHIKV infection.

Published
2023
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11. A replicon RNA vaccine can induce durable protective immunity from SARS-CoV-2 in nonhuman primates after neutralizing antibodies have waned.

Author

Megan A O'Connor, David W Hawman, Kimberly Meade-White, Shanna Leventhal, Wenjun Song, Samantha Randall, Jacob Archer, Thomas B Lewis, Brieann Brown, Megan N Fredericks, Kaitlin R Sprouse, Hillary C Tunggal, Mara Maughan, Naoto Iwayama, Chul Ahrens, William Garrison, Solomon Wangari, Kathryn A Guerriero, Patrick Hanley, Jamie Lovaglio, Greg Saturday, David Veesler, Paul T Edlefsen, Amit P Khandhar, Heinz Feldmann, Deborah Heydenburg Fuller, and Jesse H Erasmus

Subjects
Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5
Abstract

The global SARS-CoV-2 pandemic prompted rapid development of COVID-19 vaccines. Although several vaccines have received emergency approval through various public health agencies, the SARS-CoV-2 pandemic continues. Emergent variants of concern, waning immunity in the vaccinated, evidence that vaccines may not prevent transmission and inequity in vaccine distribution have driven continued development of vaccines against SARS-CoV-2 to address these public health needs. In this report, we evaluated a novel self-amplifying replicon RNA vaccine against SARS-CoV-2 in a pigtail macaque model of COVID-19 disease. We found that this vaccine elicited strong binding and neutralizing antibody responses against homologous virus. We also observed broad binding antibody against heterologous contemporary and ancestral strains, but neutralizing antibody responses were primarily targeted to the vaccine-homologous strain. While binding antibody responses were sustained, neutralizing antibody waned to undetectable levels in some animals after six months but were rapidly recalled and conferred protection from disease when the animals were challenged 7 months after vaccination as evident by reduced viral replication and pathology in the lower respiratory tract, reduced viral shedding in the nasal cavity and lower concentrations of pro-inflammatory cytokines in the lung. Cumulatively, our data demonstrate in pigtail macaques that a self-amplifying replicon RNA vaccine can elicit durable and protective immunity to SARS-CoV-2 infection. Furthermore, these data provide evidence that this vaccine can provide durable protective efficacy and reduce viral shedding even after neutralizing antibody responses have waned to undetectable levels.

Published
2023
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12. Replicating RNA platform enables rapid response to the SARS-CoV-2 Omicron variant and elicits enhanced protection in naïve hamsters compared to ancestral vaccine

Author

David W. Hawman, Kimberly Meade-White, Chad Clancy, Jacob Archer, Troy Hinkley, Shanna S. Leventhal, Deepashri Rao, Allie Stamper, Matthew Lewis, Rebecca Rosenke, Kyle Krieger, Samantha Randall, Amit P. Khandhar, Linhue Hao, Tien-Ying Hsiang, Alexander L. Greninger, Michael Gale, Jr, Peter Berglund, Deborah Heydenburg Fuller, Kyle Rosenke, Heinz Feldmann, and Jesse H. Erasmus

Subjects
SARS-CoV-2, Vaccine, Omicron, B.1.1.529, RNA, Medicine, Medicine (General), R5-920
Abstract

Summary: Background: In late 2021, the SARS-CoV-2 Omicron (B.1.1.529) variant of concern (VoC) was reported with many mutations in the viral spike protein that were predicted to enhance transmissibility and allow viral escape of neutralizing antibodies. Within weeks of the first report of B.1.1.529, this VoC has rapidly spread throughout the world, replacing previously circulating strains of SARS-CoV-2 and leading to a resurgence in COVID-19 cases even in populations with high levels of vaccine- and infection-induced immunity. Studies have shown that B.1.1.529 is less sensitive to protective antibody conferred by previous infections and vaccines developed against earlier lineages of SARS-CoV-2. The ability of B.1.1.529 to spread even among vaccinated populations has led to a global public health demand for updated vaccines that can confer protection against B.1.1.529. Methods: We rapidly developed a replicating RNA vaccine expressing the B.1.1.529 spike and evaluated immunogenicity in mice and hamsters. We also challenged hamsters with B.1.1.529 and evaluated whether vaccination could protect against viral shedding and replication within respiratory tissue. Findings: We found that mice previously immunized with A.1-specific vaccines failed to elevate neutralizing antibody titers against B.1.1.529 following B.1.1.529-targeted boosting, suggesting pre-existing immunity may impact the efficacy of B.1.1.529-targeted boosters. Furthermore, we found that our B.1.1.529-targeted vaccine provides superior protection compared to the ancestral A.1-targeted vaccine in hamsters challenged with the B.1.1.529 VoC after a single dose of each vaccine. Interpretation: Our data suggest that B.1.1.529-targeted vaccines may provide superior protection against B.1.1.529 but pre-existing immunity and timing of boosting may need to be considered for optimum protection. Funding: This research was supported in part by the Intramural Research Program, NIAID/NIH, Washington Research Foundation and by grants 27220140006C (JHE), AI100625, AI151698, and AI145296 (MG).

Published
2022
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13. Replicating RNA vaccination elicits an unexpected immune response that efficiently protects mice against lethal Crimean-Congo hemorrhagic fever virus challenge

Author

Shanna S. Leventhal, Kimberly Meade-White, Deepashri Rao, Elaine Haddock, Jacqueline Leung, Dana Scott, Jacob Archer, Samantha Randall, Jesse H. Erasmus, Heinz Feldmann, and David W. Hawman

Subjects
Crimean-Congo hemorrhagic fever, CCHFV, Vaccine, RNA vaccine, Mouse, Medicine, Medicine (General), R5-920
Abstract

Summary: Background: Crimean-Congo hemorrhagic fever virus is the cause of a severe hemorrhagic fever with cases reported throughout a wide-geographic region. Spread by the bite of infected ticks, contact with infected livestock or in the health care setting, disease begins as a non-specific febrile illness that can rapidly progress to hemorrhagic manifestations. Currently, there are no approved vaccines and antivirals such as ribavirin have unclear efficacy. Thus treatment is mostly limited to supportive care. Methods: In this report we evaluated an alphavirus-based replicon RNA vaccine expressing either the CCHFV nucleoprotein or glycoprotein precursor in a stringent, heterologous lethal challenge mouse model. Findings: Vaccination with the RNA expressing the nucleoprotein alone could confer complete protection against clinical disease, but vaccination with a combination of both the nucleoprotein and glycoprotein precursor afforded robust protection against disease and viral replication. Protection from lethal challenge required as little as a single immunization with 100ng of RNA. Unexpectedly, analysis of the immune responses elicited by the vaccine components showed that vaccination resulted in antibodies against the internal viral nucleoprotein and cellular immunity against the virion-exposed glycoproteins. Interpretation: Cumulatively this vaccine conferred robust protection against Crimean-Congo hemorrhagic fever virus and supports continued development of this vaccine candidate. Funding: This research was supported by the Intramural Research Program of the NIAID/NIH and HDT Bio.

Published
2022
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14. Flooding in Landsat across tidal systems (FLATS): An index for intermittent tidal filtering and frequency detection in salt marsh environments

Author

Caroline R. Narron, Jessica L. O'Connell, Deepak R. Mishra, David L. Cotten, Peter A. Hawman, and Lishen Mao

Subjects
Tidal inundation, Salt marshes, Flooding, Sea level rise, Spartina alterniflora, Coastal wetland, Ecology, QH540-549.5
Abstract

Remote sensing can provide critical information about the health and productivity of coastal wetland ecosystems, including extent, phenology, and carbon sequestration potential. Unfortunately, periodic inundation from tides dampens the spectral signal and, in turn, causes remote sensing-based models to produce unreliable results, altering estimates of ecosystem function and services. We created the Flooding in Landsat Across Tidal Systems (FLATS) index to identify flooded pixels in Landsat 8 30-meter data and provide an inundated pixel filtering method. Novel applications of FLATS including inundation frequency and pattern detection are also demonstrated. The FLATS index was developed to identify flooding in Spartina alterniflora tidal marshes. We used ground truth inundation data from a PhenoCam and Landsat 8 pixels within the PhenoCam field of view on Sapelo Island, GA, USA to create the index. The FLATS index incorporates a normalized difference water index (NDWI) and a phenology-related variable into a generalized linear model (GLM) that predicted the presence or absence of marsh flooding. The FLATS equation for predicting flooding is 1-1e-1.6+20.0*NDWI4,6+68.6*Pheno3,4, and we found that a cutoff 0.1 was the optimized value for separating flooded and non-flooded pixel classes. FLATS identified flooded pixels with an overall accuracy of 96% and 93% across training data and novel testing data, respectively. FLATS correctly identified true flooded pixels with a sensitivity of 97% and 81%, across training and testing data, respectively. We established the need to apply FLATS when conducting vegetation time-series analysis in coastal marshes in order to reduce the per-pixel reflectance variations attributed to tidal flooding. We found that FLATS identified 12.5% of pixels as flooded in Landsat 8 tidal marsh vegetation time-series from 2013 to 2020, after traditional quality control and preprocessing steps were conducted, which could then be filtered out or modeled separately in order to conduct remotely sensed vegetation assessments. Therefore, in tidal wetlands, we recommend incorporating FLATS into Landsat 8 preprocessing prior to vegetation analysis. We also demonstrated innovative applications for the FLATS index, particularly in detecting flooding frequency and flooding patterns relevant to the broader biophysical modeling framework, including mapping marsh vulnerability due to fluctuation in inundation frequency. The FLATS index represents advancements in the understanding and application of inundation indices for coastal marshes.

Published
2022
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15. Orally delivered MK-4482 inhibits SARS-CoV-2 replication in the Syrian hamster model

Author

Kyle Rosenke, Frederick Hansen, Benjamin Schwarz, Friederike Feldmann, Elaine Haddock, Rebecca Rosenke, Kent Barbian, Kimberly Meade-White, Atsushi Okumura, Shanna Leventhal, David W. Hawman, Emily Ricotta, Catharine M. Bosio, Craig Martens, Greg Saturday, Heinz Feldmann, and Michael A. Jarvis

Subjects
Science
Abstract

While vaccines protecting against SARS-CoV-2 infection are approved, currently, there are no drugs suitable for high-risk exposure use against SARS-CoV-2. Here, Rosenke et al. provide evidence that orally delivered MK-4482, a nucleoside analog, inhibits SARS-CoV-2 replication in the Syrian hamster model.

Published
2021
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16. Purification of Crimean–Congo hemorrhagic fever virus nucleoprotein and its utility for serological diagnosis

Author

Boniface Pongombo Lombe, Hiroko Miyamoto, Takeshi Saito, Reiko Yoshida, Rashid Manzoor, Masahiro Kajihara, Masayuki Shimojima, Shuetsu Fukushi, Shigeru Morikawa, Tomoki Yoshikawa, Takeshi Kurosu, Masayuki Saijo, Qing Tang, Justin Masumu, David Hawman, Heinz Feldmann, and Ayato Takada

Subjects
Medicine, Science
Abstract

Abstract Crimean–Congo hemorrhagic fever virus (CCHFV) causes a zoonotic disease, Crimean–Congo hemorrhagic fever (CCHF) endemic in Africa, Asia, the Middle East, and Southeastern Europe. However, the prevalence of CCHF is not monitored in most of the endemic countries due to limited availability of diagnostic assays and biosafety regulations required for handling infectious CCHFV. In this study, we established a protocol to purify the recombinant CCHFV nucleoprotein (NP), which is antigenically highly conserved among multiple lineages/clades of CCHFVs and investigated its utility in an enzyme-linked immunosorbent assay (ELISA) to detect CCHFV-specific antibodies. The NP gene was cloned into the pCAGGS mammalian expression plasmid and human embryonic kidney 293 T cells were transfected with the plasmid. The expressed NP molecule was purified from the cell lysate using cesium-chloride gradient centrifugation. Purified NP was used as the antigen for the ELISA to detect anti-CCHFV IgG. Using the CCHFV NP-based ELISA, we efficiently detected CCHFV-specific IgG in anti-NP rabbit antiserum and CCHFV-infected monkey serum. When compared to the commercially available Blackbox CCHFV IgG ELISA kit, our assay showed equivalent performance in detecting CCHFV-specific IgG in human sera. These results demonstrate the usefulness of our CCHFV NP-based ELISA for seroepidemiological studies.

Published
2021
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17. Long‐term ecological research and the COVID‐19 anthropause: A window to understanding social–ecological disturbance

Author

Evelyn E. Gaiser, John S. Kominoski, Diane M. McKnight, Christie A. Bahlai, Chingwen Cheng, Sydne Record, Wilfred M. Wollheim, Kyle R. Christianson, Martha R. Downs, Peter A. Hawman, Sally J. Holbrook, Abhishek Kumar, Deepak R. Mishra, Noah P. Molotch, Richard B. Primack, Andrew Rassweiler, Russell J. Schmitt, and Lori A. Sutter

Subjects
ecosystems, feedback, LTER, press, pulse, recovery, Ecology, QH540-549.5
Abstract

Abstract The period of disrupted human activity caused by the COVID‐19 pandemic, coined the “anthropause,” altered the nature of interactions between humans and ecosystems. It is uncertain how the anthropause has changed ecosystem states, functions, and feedback to human systems through shifts in ecosystem services. Here, we used an existing disturbance framework to propose new investigation pathways for coordinated studies of distributed, long‐term social‐ecological research to capture effects of the anthropause. Although it is still too early to comprehensively evaluate effects due to pandemic‐related delays in data availability and ecological response lags, we detail three case studies that show how long‐term data can be used to document and interpret changes in air and water quality and wildlife populations and behavior coinciding with the anthropause. These early findings may guide interpretations of effects of the anthropause as it interacts with other ongoing environmental changes in the future, particularly highlighting the importance of long‐term data in separating disturbance impacts from natural variation and long‐term trends. Effects of this global disturbance have local to global effects on ecosystems with feedback to social systems that may be detectable at spatial scales captured by nationally to globally distributed research networks.

Published
2022
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18. Detailed analysis of antibody responses to SARS-CoV-2 vaccination and infection in macaques.

Author

Alexandra C Willcox, Kevin Sung, Meghan E Garrett, Jared G Galloway, Jesse H Erasmus, Jennifer K Logue, David W Hawman, Helen Y Chu, Kim J Hasenkrug, Deborah H Fuller, Frederick A Matsen Iv, and Julie Overbaugh

Subjects
Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5
Abstract

Macaques are a commonly used model for studying immunity to human viruses, including for studies of SARS-CoV-2 infection and vaccination. However, it is unknown whether macaque antibody responses resemble the response in humans. To answer this question, we employed a phage-based deep mutational scanning approach (Phage-DMS) to compare which linear epitopes are targeted on the SARS-CoV-2 Spike protein in convalescent humans, convalescent (re-infected) rhesus macaques, mRNA-vaccinated humans, and repRNA-vaccinated pigtail macaques. We also used Phage-DMS to determine antibody escape pathways within each epitope, enabling a granular comparison of antibody binding specificities at the locus level. Overall, we identified some common epitope targets in both macaques and humans, including in the fusion peptide (FP) and stem helix-heptad repeat 2 (SH-H) regions. Differences between groups included a response to epitopes in the N-terminal domain (NTD) and C-terminal domain (CTD) in vaccinated humans but not vaccinated macaques, as well as recognition of a CTD epitope and epitopes flanking the FP in convalescent macaques but not convalescent humans. There was also considerable variability in the escape pathways among individuals within each group. Sera from convalescent macaques showed the least variability in escape overall and converged on a common response with vaccinated humans in the SH-H epitope region, suggesting highly similar antibodies were elicited. Collectively, these findings suggest that the antibody response to SARS-CoV-2 in macaques shares many features with humans, but with substantial differences in the recognition of certain epitopes and considerable individual variability in antibody escape profiles, suggesting a diverse repertoire of antibodies that can respond to major epitopes in both humans and macaques. Differences in macaque species and exposure type may also contribute to these findings.

Published
2022
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20. SARS-CoV2 variant-specific replicating RNA vaccines protect from disease following challenge with heterologous variants of concern

Author

David W Hawman, Kimberly Meade-White, Jacob Archer, Shanna S Leventhal, Drew Wilson, Carl Shaia, Samantha Randall, Amit P Khandhar, Kyle Krieger, Tien-Ying Hsiang, Michael Gale, Peter Berglund, Deborah Heydenburg Fuller, Heinz Feldmann, and Jesse H Erasmus

Subjects
hamster, COVID-19, vaccine, RNA vaccine, replicon, Medicine, Science, Biology (General), QH301-705.5
Abstract

Despite mass public health efforts, the SARS-CoV2 pandemic continues as of late 2021 with resurgent case numbers in many parts of the world. The emergence of SARS-CoV2 variants of concern (VoCs) and evidence that existing vaccines that were designed to protect from the original strains of SARS-CoV-2 may have reduced potency for protection from infection against these VoC is driving continued development of second-generation vaccines that can protect against multiple VoC. In this report, we evaluated an alphavirus-based replicating RNA vaccine expressing Spike proteins from the original SARS-CoV-2 Alpha strain and recent VoCs delivered in vivo via a lipid inorganic nanoparticle. Vaccination of both mice and Syrian Golden hamsters showed that vaccination induced potent neutralizing titers against each homologous VoC but reduced neutralization against heterologous challenges. Vaccinated hamsters challenged with homologous SARS-CoV2 variants exhibited complete protection from infection. In addition, vaccinated hamsters challenged with heterologous SARS-CoV-2 variants exhibited significantly reduced shedding of infectious virus. Our data demonstrate that this vaccine platform can be updated to target emergent VoCs, elicits significant protective immunity against SARS-CoV2 variants and supports continued development of this platform.

Published
2022
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24. Recovery from Acute SARS-CoV-2 Infection and Development of Anamnestic Immune Responses in T Cell-Depleted Rhesus Macaques

Author

Kim J. Hasenkrug, Friederike Feldmann, Lara Myers, Mario L. Santiago, Kejun Guo, Bradley S. Barrett, Kaylee L. Mickens, Aaron Carmody, Atsushi Okumura, Deepashri Rao, Madison M. Collins, Ronald J. Messer, Jamie Lovaglio, Carl Shaia, Rebecca Rosenke, Neeltje van Doremalen, Chad Clancy, Greg Saturday, Patrick Hanley, Brian J. Smith, Kimberly Meade-White, W. Lesley Shupert, David W. Hawman, and Heinz Feldmann

Subjects
SARS-CoV-2, T cells, macaque, neutralizing antibodies, Microbiology, QR1-502
Abstract

ABSTRACT Severe coronavirus disease 2019 (COVID-19) has been associated with T cell lymphopenia, but no causal effect of T cell deficiency on disease severity has been established. To investigate the specific role of T cells in recovery from severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infections, we studied rhesus macaques that were depleted of either CD4+, CD8+, or both T cell subsets prior to infection. Peak virus loads were similar in all groups, but the resolution of virus in the T cell-depleted animals was slightly delayed compared to that in controls. The T cell-depleted groups developed virus-neutralizing antibody responses and class switched to IgG. When reinfected 6 weeks later, the T cell-depleted animals showed anamnestic immune responses characterized by rapid induction of high-titer virus-neutralizing antibodies, faster control of virus loads, and reduced clinical signs. These results indicate that while T cells play a role in the recovery of rhesus macaques from acute SARS-CoV-2 infections, their depletion does not induce severe disease, and T cells do not account for the natural resistance of rhesus macaques to severe COVID-19. Neither primed CD4+ nor CD8+ T cells appeared critical for immunoglobulin class switching, the development of immunological memory, or protection from a second infection. IMPORTANCE Patients with severe COVID-19 often have decreased numbers of T cells, a cell type important in fighting most viral infections. However, it is not known whether the loss of T cells contributes to severe COVID-19 or is a consequence of it. We studied rhesus macaques, which develop only mild COVID-19, similar to most humans. Experimental depletion of T cells slightly prolonged their clearance of virus, but there was no increase in disease severity. Furthermore, they were able to develop protection from a second infection and produced antibodies capable of neutralizing the virus. They also developed immunological memory, which allows a much stronger and more rapid response upon a second infection. These results suggest that T cells are not critical for recovery from acute SARS-CoV-2 infections in this model and point toward B cell responses and antibodies as the essential mediators of protection from re-exposure.

Published
2021
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25. Immunocompetent mouse model for Crimean-Congo hemorrhagic fever virus

Author

David W Hawman, Kimberly Meade-White, Shanna Leventhal, Friederike Feldmann, Atsushi Okumura, Brian Smith, Dana Scott, and Heinz Feldmann

Subjects
Crimean-Congo hemorrhagic fever virus, CCHFV, mouse model, Medicine, Science, Biology (General), QH301-705.5
Abstract

Crimean-Congo hemorrhagic fever (CCHF) is a severe tick-borne febrile illness with wide geographic distribution. CCHF is caused by infection with the Crimean-Congo hemorrhagic fever virus (CCHFV) and case fatality rates can be as high as 30%. Despite causing severe disease in humans, our understanding of the host and viral determinants of CCHFV pathogenesis are limited. A major limitation in the investigation of CCHF has been the lack of suitable small animal models. Wild-type mice are resistant to clinical isolates of CCHFV and consequently, mice must be deficient in type I interferon responses to study the more severe aspects of CCHFV. We report here a mouse-adapted variant of CCHFV that recapitulates in adult, immunocompetent mice the severe CCHF observed in humans. This mouse-adapted variant of CCHFV significantly improves our ability to study host and viral determinants of CCHFV-induced disease in a highly tractable mouse model.

Published
2021
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26. Hydroxychloroquine prophylaxis and treatment is ineffective in macaque and hamster SARS-CoV-2 disease models

Author

Kyle Rosenke, Michael A. Jarvis, Friederike Feldmann, Benjamin Schwarz, Atsushi Okumura, Jamie Lovaglio, Greg Saturday, Patrick W. Hanley, Kimberly Meade-White, Brandi N. Williamson, Frederick Hansen, Lizette Perez-Perez, Shanna Leventhal, Tsing-Lee Tang-Huau, Julie Callison, Elaine Haddock, Kaitlin A. Stromberg, Dana Scott, Graham Sewell, Catharine M. Bosio, David Hawman, Emmie de Wit, and Heinz Feldmann

Subjects
COVID-19, Therapeutics, Medicine
Abstract

We remain largely without effective prophylactic/therapeutic interventions for COVID-19. Although many human COVID-19 clinical trials are ongoing, there remains a deficiency of supportive preclinical drug efficacy studies to help guide decisions. Here we assessed the prophylactic/therapeutic efficacy of hydroxychloroquine (HCQ), a drug of interest for COVID-19 management, in 2 animal disease models. The standard human malaria HCQ prophylaxis (6.5 mg/kg given weekly) and treatment (6.5 mg/kg given daily) did not significantly benefit clinical outcome, nor did it reduce SARS-CoV-2 replication/shedding in the upper and lower respiratory tract in the rhesus macaque disease model. Similarly, when used for prophylaxis or treatment, neither the standard human malaria dose (6.5 mg/kg) nor a high dose (50 mg/kg) of HCQ had any beneficial effect on clinical disease or SARS-CoV-2 kinetics (replication/shedding) in the Syrian hamster disease model. Results from these 2 preclinical animal models may prove helpful in guiding clinical use of HCQ for prophylaxis/treatment of COVID-19.

Published
2020
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27. Neutralizing Monoclonal Antibodies against the Gn and the Gc of the Andes Virus Glycoprotein Spike Complex Protect from Virus Challenge in a Preclinical Hamster Model

Author

James Duehr, Meagan McMahon, Brandi Williamson, Fatima Amanat, Alan Durbin, David W. Hawman, Danny Noack, Skyler Uhl, Gene S. Tan, Heinz Feldmann, and Florian Krammer

Subjects
Andes virus, hantavirus, MAb, Sin Nombre virus, Microbiology, QR1-502
Abstract

ABSTRACT Hantaviruses are the etiological agent of hemorrhagic fever with renal syndrome (HFRS) and hantavirus cardiopulmonary syndrome (HCPS). The latter is associated with case fatality rates ranging from 30% to 50%. HCPS cases are rare, with approximately 300 recorded annually in the Americas. Recently, an HCPS outbreak of unprecedented size has been occurring in and around Epuyén, in the southwestern Argentinian state of Chubut. Since November of 2018, at least 29 cases have been laboratory confirmed, and human-to-human transmission is suspected. Despite posing a significant threat to public health, no treatment or vaccine is available for hantaviral disease. Here, we describe an effort to identify, characterize, and develop neutralizing and protective antibodies against the glycoprotein complex (Gn and Gc) of Andes virus (ANDV), the causative agent of the Epuyén outbreak. Using murine hybridoma technology, we generated 19 distinct monoclonal antibodies (MAbs) against ANDV GnGc. When tested for neutralization against a recombinant vesicular stomatitis virus expressing the Andes glycoprotein (GP) (VSV-ANDV), 12 MAbs showed potent neutralization and 8 showed activity in an antibody-dependent cellular cytotoxicity reporter assay. Escape mutant analysis revealed that neutralizing MAbs targeted both the Gn and the Gc. Four MAbs that bound different epitopes were selected for preclinical studies and were found to be 100% protective against lethality in a Syrian hamster model of ANDV infection. These data suggest the existence of a wide array of neutralizing antibody epitopes on hantavirus GnGc with unique properties and mechanisms of action. IMPORTANCE Infections with New World hantaviruses are associated with high case fatality rates, and no specific vaccine or treatment options exist. Furthermore, the biology of the hantaviral GnGc complex, its antigenicity, and its fusion machinery are poorly understood. Protective monoclonal antibodies against GnGc have the potential to be developed into therapeutics against hantaviral disease and are also great tools to elucidate the biology of the glycoprotein complex.

Published
2020
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28. Three-Week Old Pigs Are Not Susceptible to Productive Infection with SARS-COV-2

Author

Elaine Haddock, Julie Callison, Stephanie N. Seifert, Atsushi Okumura, Tsing-Lee Tang-Huau, Shanna S. Leventhal, Matthew C. Lewis, Jamie Lovaglio, Patrick W. Hanley, Carl Shaia, David W. Hawman, Vincent J. Munster, Michael A. Jarvis, Juergen A. Richt, and Heinz Feldmann

Subjects
SARS-CoV-2, young pigs, infection, replication, transmission, disease, Biology (General), QH301-705.5
Abstract

As the COVID-19 pandemic moves into its third year, there remains a need for additional animal models better recapitulating severe COVID to study SARS-CoV-2 pathogenesis and develop countermeasures, especially treatment options. Pigs are known intermediate hosts for many viruses with zoonotic potential and are susceptible to infection with alpha, beta and delta genera of coronaviruses. Herein, we infected young (3 weeks of age) pigs with SARS-CoV-2 using a combination of respiratory and parenteral inoculation routes. Pigs did not develop clinical disease, nor macroscopic or microscopic pathologic lesions upon SARS-CoV-2 infection. Despite occasional low levels of SARS-CoV-2 genomic RNA in the respiratory tract, subgenomic RNA and infectious virus were never found, and SARS-CoV-2-specific adaptive immune responses were not detectable over the 13-day study period. We concluded that pigs are not susceptible to productive SARS-CoV-2 infection and do not serve as a SARS-CoV-2 reservoir for zoonotic transmission.

Published
2022
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30. An Intramuscular DNA Vaccine for SARS-CoV-2 Decreases Viral Lung Load but Not Lung Pathology in Syrian Hamsters

Author

Shanna S. Leventhal, Chad Clancy, Jesse Erasmus, Heinz Feldmann, and David W. Hawman

Subjects
SARS-CoV-2, syrian hamster model, DNA Vaccine, Biology (General), QH301-705.5
Abstract

The 2019 novel coronavirus, SARS-CoV-2, first reported in December 2019, has infected over 102 million people around the world as of February 2021 and thus calls for rapid development of safe and effective interventions, namely vaccines. In our study, we evaluated a DNA vaccine against SARS-CoV-2 in the Syrian hamster model. Hamsters were vaccinated with a DNA-plasmid encoding the SARS-CoV-2 full length spike open reading frame (ORF) to induce host cells to produce spike protein and protective immune responses before exposure to infectious virus. We tested this vaccine candidate by both intranasal (IN) and intramuscular (IM) routes of administration and complexing with and without an in vivo delivery reagent. Hamsters receiving prime-boost-boost IM-only vaccinations recovered body weight quicker, had decreased lung viral loads, and increased SARS-CoV-2-specific antibody titers compared to control vaccinated animals but, surprisingly, lung pathology was as severe as sham vaccinated controls. The IM/IN combination group showed no efficacy in reducing lung virus titers or pathology. With increasing public health need for rapid and effective interventions, our data demonstrate that in some vaccine contexts, significant antibody responses and decreased viral loads may not be sufficient to prevent lung pathology.

Published
2021
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31. A Look into Bunyavirales Genomes: Functions of Non-Structural (NS) Proteins

Author

Shanna S. Leventhal, Drew Wilson, Heinz Feldmann, and David W. Hawman

Subjects
bunyavirales, non-structural proteins, peribunyaviridae, nairoviridae, hantaviridae, phenuiviridae, Microbiology, QR1-502
Abstract

In 2016, the Bunyavirales order was established by the International Committee on Taxonomy of Viruses (ICTV) to incorporate the increasing number of related viruses across 13 viral families. While diverse, four of the families (Peribunyaviridae, Nairoviridae, Hantaviridae, and Phenuiviridae) contain known human pathogens and share a similar tri-segmented, negative-sense RNA genomic organization. In addition to the nucleoprotein and envelope glycoproteins encoded by the small and medium segments, respectively, many of the viruses in these families also encode for non-structural (NS) NSs and NSm proteins. The NSs of Phenuiviridae is the most extensively studied as a host interferon antagonist, functioning through a variety of mechanisms seen throughout the other three families. In addition, functions impacting cellular apoptosis, chromatin organization, and transcriptional activities, to name a few, are possessed by NSs across the families. Peribunyaviridae, Nairoviridae, and Phenuiviridae also encode an NSm, although less extensively studied than NSs, that has roles in antagonizing immune responses, promoting viral assembly and infectivity, and even maintenance of infection in host mosquito vectors. Overall, the similar and divergent roles of NS proteins of these human pathogenic Bunyavirales are of particular interest in understanding disease progression, viral pathogenesis, and developing strategies for interventions and treatments.

Published
2021
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32. T-Cells and Interferon Gamma Are Necessary for Survival Following Crimean-Congo Hemorrhagic Fever Virus Infection in Mice

Author

David W. Hawman, Kimberly Meade-White, Shanna Leventhal, Aaron Carmody, Elaine Haddock, Kim Hasenkrug, and Heinz Feldmann

Subjects
Crimean-Congo hemorrhagic fever, CCHFV, T-cells, mouse model, IFNγ, Biology (General), QH301-705.5
Abstract

Crimean-Congo hemorrhagic fever (CCHF) is a severe tick-borne febrile illness with wide geographic distribution. In humans, the disease follows infection by the Crimean-Congo hemorrhagic fever virus (CCHFV) and begins as flu-like symptoms that can rapidly progress to hemorrhaging and death. Case fatality rates can be as high as 30%. An important gap in our understanding of CCHF are the host immune responses necessary to control the infection. A better understanding of these responses is needed to direct therapeutic strategies to limit the often-severe morbidity and mortality seen in humans. In this report, we have utilized a mouse model in which mice develop severe disease but ultimately recover. T-cells were robustly activated, differentiated to produce antiviral cytokines, and were critical for survival following CCHFV infection. We further identified a key role for interferon gamma (IFNγ) in survival following CCHFV infection. These results significantly improve our understanding of the host adaptive immune response to severe CCHFV infection.

Published
2021
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33. Pathogenic Chikungunya Virus Evades B Cell Responses to Establish Persistence

Author

David W. Hawman, Julie M. Fox, Alison W. Ashbrook, Nicholas A. May, Kristin M.S. Schroeder, Raul M. Torres, James E. Crowe Jr., Terence S. Dermody, Michael S. Diamond, and Thomas E. Morrison

Subjects
Biology (General), QH301-705.5
Abstract

Chikungunya virus (CHIKV) and related alphaviruses cause epidemics of acute and chronic musculoskeletal disease. To investigate the mechanisms underlying the failure of immune clearance of CHIKV, we studied mice infected with an attenuated CHIKV strain (181/25) and the pathogenic parental strain (AF15561), which differ by five amino acids. Whereas AF15561 infection of wild-type mice results in viral persistence in joint tissues, 181/25 is cleared. In contrast, 181/25 infection of μMT mice lacking mature B cells results in viral persistence in joint tissues, suggesting that virus-specific antibody is required for clearance of infection. Mapping studies demonstrated that a highly conserved glycine at position 82 in the A domain of the E2 glycoprotein impedes clearance and neutralization of multiple CHIKV strains. Remarkably, murine and human antibodies targeting E2 domain B failed to neutralize pathogenic CHIKV strains efficiently. Our data suggest that pathogenic CHIKV strains evade E2 domain-B-neutralizing antibodies to establish persistence.

Published
2016
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34. Recent advances in understanding Crimean–Congo hemorrhagic fever virus [version 1; referees: 4 approved]

Author

David W. Hawman and Heinz Feldmann

Subjects
Medicine, Science
Abstract

Crimean-Congo hemorrhagic fever virus (CCHFV) is a widely distributed hemorrhagic fever virus and the cause of hemorrhagic disease in Africa, Southern and Eastern Europe, the Middle East, India and Asia. Recent emergence of CCHFV into Spain indicates that the geographic range of this virus is expanding and the presence of its tick vector in several countries without reported disease suggest that CCHFV will continue to spread. Research into CCHFV was historically limited by a lack of suitable animal models and tools to study viral pathogenesis. However, in the past few years the toolset for studying CCHFV has expanded with small animal and non-human primate models for CCHFV being developed along with a reverse genetics system that allows for investigation of viral determinants of disease. These tools have been utilized to understand how CCHFV antagonizes host restriction factors and to develop novel vaccine candidates that may help limit the substantial morbidity and mortality in humans caused by CCHFV.

Published
2018
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35. Spatial cognition in western gorillas (Gorilla gorilla): an analysis of distance, linearity, and speed of travel routes

Author

Clara J Scarry, Andrea Presotto, Diane M. Doran-Sheehy, Roberta Salmi, and P. Hawman

Subjects
0106 biological sciences, biology, Cognitive map, Home range, 05 social sciences, Foraging, Experimental and Cognitive Psychology, Gorilla, Spatial cognition, 010603 evolutionary biology, 01 natural sciences, Preference, Geography, Frugivore, biology.animal, Spatial ecology, 0501 psychology and cognitive sciences, 050102 behavioral science & comparative psychology, Ecology, Evolution, Behavior and Systematics, Cognitive psychology
Abstract

Spatial memory allows animals to retain information regarding the location, distribution, and quality of feeding sites to optimize foraging decisions. Western gorillas inhabit a complex environment with spatiotemporal fluctuations of resource availability, prefer fruits when available, and travel long distances to reach them. Here, we examined movement patterns-such as linearity, distance, and speed of traveling-to assess whether gorillas optimize travel when reaching out-of-sight valued resources. Our results show that gorillas travel patterns are affected by the activity they perform next, the type of food they feed on, and their preference level to specific fruits, suggesting they are able to optimize foraging based on spatial knowledge of their resources. Additionally, gorillas left in the direction of the next resource as soon as they started traveling and decelerated before approaching food resources, as evidence that they have a representation of their exact locations. Moreover, home range familiarity did not influence gorillas' movement patterns, as travel linearity in the core and periphery did not differ, suggesting that they may not depend wholly on a network of paths to navigate their habitat. These results show some overlap with chimpanzees' spatial abilities. Differences between the two ape species exist, however, potentially reflecting more their differences in diet (degree of frugivory) rather than their cognitive abilities. Further studies should focus on determining whether gorillas are able to use shortcuts and/or approach the same goal from multiple directions to better identify the spatial abilities used by this species.

Published
2020

36. Salt Marsh Light Use Efficiency is Driven by Environmental Gradients and Species‐Specific Physiology and Morphology

Author

Deepak R. Mishra, P. Hawman, Lishen Mao, David L. Cotten, Caroline R. Narron, and Jessica L. O’Connell

Subjects
Atmospheric Science, geography, geography.geographical_feature_category, Ecology, Eddy covariance, Paleontology, Soil Science, Forestry, Morphology (biology), Wetland, Aquatic Science, chemistry.chemical_compound, chemistry, Environmental chemistry, Salt marsh, Carbon dioxide, Environmental science, Water Science and Technology
Published
2021

37. Accelerated DNA vaccine regimen provides protection against Crimean-Congo hemorrhagic fever virus challenge in a macaque model

Author

Hawman, David W., Meade-White, Kimberly, Leventhal, Shanna, Appelberg, Sofia, Ahlén, Gustaf, Nikouyan, Negin, Clancy, Chad, Smith, Brian, Hanley, Patrick, Lovaglio, Jamie, Mirazimi, Ali, Sällberg, Matti, and Feldmann, Heinz

Abstract

Crimean-Congo hemorrhagic fever virus (CCHFV) is widely distributed throughout Africa, the Middle East, Southern Asia, and Southern and Eastern Europe. Spread by Hyalommaticks or by contact with infected animals, CCHF begins non-specifically but can rapidly progress to severe, sometimes fatal, disease. Due to the non-specific early symptoms and often unrecognized infections, patients often present to healthcare systems exhibiting later stages of disease, when treatment is limited to supportive care. Consequently, simple vaccines are critically needed to protect populations at risk of CCHFV infection. Currently, there are no widely approved vaccines for CCHFV. We have previously reported significant efficacy of a three-dose DNA-based vaccination regimen for CCHFV in cynomolgus macaques (Macaca fasicularis). Here, we show that in cynomolgus macaques, plasmid-expressed CCHFV nucleoprotein (NP) and glycoprotein precursor (GPC) antigens elicit primarily humoral and cellular immunity, respectively. We found that a two-dose vaccination regimen with plasmids expressing the NP and GPC provides significant protection against CCHFV infection. Studies investigating vaccinations with either antigen alone showed that plasmid-expressed NPs could also confer protection. Cumulatively, our data show that this vaccine confers robust protection against CCHFV and suggest that both humoral and cellular immunity contribute to optimal vaccine-mediated protection.

Published
2023
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38. Crimean–Congo haemorrhagic fever virus

Author

Hawman, David W. and Feldmann, Heinz

Abstract

Crimean–Congo haemorrhagic fever (CCHF) is a severe tick-borne illness with a wide geographical distribution and case fatality rates of 30% or higher. Caused by infection with the CCHF virus (CCHFV), cases are reported throughout Africa, the Middle East, Asia and southern and eastern Europe. The expanding range of the Hyalommatick vector is placing new populations at risk for CCHF, and no licensed vaccines or specific antivirals exist to treat CCHF. Furthermore, despite cases of CCHF being reported annually, the host and viral determinants of CCHFV pathogenesis are poorly understood. CCHFV can productively infect a multitude of animal species, yet only humans develop a severe illness. Within human populations, subclinical infections are underappreciated and may represent a substantial proportion of clinical outcomes. Compared with other members of the Bunyaviralesorder, CCHFV has a more complex genomic organization, with many viral proteins having unclear functions in viral pathogenesis. In recent years, improved animal models have led to increased insights into CCHFV pathogenesis, and several antivirals and vaccines for CCHFV have shown robust efficacy in preclinical models. Translation of these insights and candidate therapeutics to the clinic will hopefully reduce the morbidity and mortality caused by CCHFV.

Published
2023
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39. Benjamin Disraeli Letters : 1868, Vol. X

Author

PHARAND, MICHEL W., General Editor, HAWMAN, ELLEN L., Co-editor, MILLAR, MARY S., Consulting Editor, DEN OTTER, SANDRA, Consulting Editor, WIEBE, M.G., Editor Emeritus, PHARAND, MICHEL W., HAWMAN, ELLEN L., MILLAR, MARY S., DEN OTTER, SANDRA, and WIEBE, M.G.

Published
2014

40. A self-amplifying RNA vaccine prevents enterovirus D68 infection and disease in preclinical models

Author

Warner, Nikole L., Archer, Jacob, Park, Stephanie, Singh, Garima, McFadden, Kathryn M., Kimura, Taishi, Nicholes, Katrina, Simpson, Adrian, Kaelber, Jason T., Hawman, David W., Feldmann, Heinz, Khandhar, Amit P., Berglund, Peter, Vogt, Matthew R., and Erasmus, Jesse H.

Abstract

The recent emergence and rapid response to severe acute respiratory syndrome coronavirus 2 was enabled by prototype pathogen and vaccine platform approaches, driven by the preemptive application of RNA vaccine technology to the related Middle East respiratory syndrome coronavirus. Recently, the National Institutes of Allergy and Infectious Diseases identified nine virus families of concern, eight enveloped virus families and one nonenveloped virus family, for which vaccine generation is a priority. Although RNA vaccines have been described for a variety of enveloped viruses, a roadmap for their use against nonenveloped viruses is lacking. Enterovirus D68 was recently designated a prototype pathogen within the family Picornaviridae of nonenveloped viruses because of its rapid evolution and respiratory route of transmission, coupled with a lack of diverse anti-enterovirus vaccine approaches in development. Here, we describe a proof-of-concept approach using a clinical stage RNA vaccine platform that induced robust enterovirus D68–neutralizing antibody responses in mice and nonhuman primates and prevented upper and lower respiratory tract infections and neurological disease in mice. In addition, we used our platform to rapidly characterize the antigenic diversity within the six genotypes of enterovirus D68, providing the necessary data to inform multivalent vaccine compositions that can elicit optimal breadth of neutralizing responses. These results demonstrate that RNA vaccines can be used as tools in our pandemic-preparedness toolbox for nonenveloped viruses.

Published
2024
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41. Benjamin Disraeli Letters, 1865-1867 #9 : Vol. 9

Author

PHARAND, MICHEL W., General Editor, HAWMAN, ELLEN L., Co-editor, MILLAR, MARY S., Consulting Editor, DEN OTTER, SANDRA, Consulting Editor, WIEBE, M.G., Editor Emeritus, PHARAND, MICHEL W., HAWMAN, ELLEN L., MILLAR, MARY S., DEN OTTER, SANDRA, and WIEBE, M.G.

Published
2013

43. Canopy Heterogeneity and Environmental Variability Drive Annual Budgets of Net Ecosystem Carbon Exchange in a Tidal Marsh

Author

Hawman, P. A., Cotten, D. L., and Mishra, D. R.

Abstract

Tidal salt marshes are important ecosystems in the global carbon cycle. Understanding their net carbon exchange with the atmosphere is required to accurately estimate their net ecosystem carbon budget (NECB). In this study, we present the interannual net ecosystem exchange (NEE) of CO2derived from eddy covariance (EC) for a Spartina alterniflorasalt marsh. We found interannual NEE could vary up to 3‐fold and range from −58.5 ± 11.3 to −222.9 ± 12.4 g C m−2year−1in 2016 and 2020, respectively. Further, we found that atmospheric CO2fluxes were spatially dependent and varied across short distances. High biomass regions along tidal creek and estuary edges had up to 2‐fold higher annual NEE than lower biomass marsh interiors. In addition to the spatial variation of NEE, regions of the marsh represented by distinct canopy zonation responded to environmental drivers differently. Low elevation edges (with taller canopies) had a higher correlation with river discharge (R2= 0.61), the main freshwater input into the system, while marsh interiors (with short canopies) were better correlated with in situ precipitation (R2= 0.53). Lastly, we extrapolated interannual NEE to the wider marsh system, demonstrating the potential underestimation of annual NEE when not considering spatially explicit rates of NEE. Our work provides a basis for further research to understand the temporal and spatial dynamics of productivity in coastal wetlands, ecosystems which are at the forefront of experiencing climate change induced variability in precipitation, temperature, and sea level rise that have the potential to alter ecosystem productivity. Salt marshes are dynamic coastal wetlands where frequent tidal flooding in conjunction with elevation gradients create plant zonation. In tidal marshes found in the southeastern United States, the species of marsh grass Spartina alternifloradominates much of the marsh area. This species' canopy height, density, and biomass vary along an elevation gradient and because of this, their productivity is spatially dependent. In this paper, we used measurements of carbon dioxide exchange between the marsh surface and the atmosphere to estimate the interannual ecosystem carbon budgets. We found that across years, ecosystem carbon fluxes could vary up to 3‐fold. This variability year‐to‐year could be explained by drought conditions, specifically temperature, precipitation, and river discharge. We also found that the magnitude of carbon fluxes and its response to environmental drivers were spatially dependent. Taller canopies with higher biomass found along tidal creeks had higher rates of carbon uptake and were more sensitive to river discharge. While shorter canopies with low biomass found in the marsh interiors were more sensitive to precipitation. Our findings suggest the atmospheric carbon dynamics in salt marshes are spatially dependent and scaling these estimates to larger areas requires careful consideration of habitat zones and local environmental drivers. Tidal marsh net ecosystem exchange can vary by 3‐fold annually and 2‐fold across a single species canopy gradientDrought, temperature, precipitation, and river discharge affect spatially explicit net ecosystem exchangeInclusion of within‐footprint habitat zones can reduce uncertainties in scaling up net ecosystem exchange Tidal marsh net ecosystem exchange can vary by 3‐fold annually and 2‐fold across a single species canopy gradient Drought, temperature, precipitation, and river discharge affect spatially explicit net ecosystem exchange Inclusion of within‐footprint habitat zones can reduce uncertainties in scaling up net ecosystem exchange

Published
2024
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47. Comparison of two systems of multiple line sources for SPECT transmission scanning

Author

Arkadiusz Sitek, A. Celler, P. Hawman, and R. Harrop

Subjects
Data processing, Optics, Transmission (telecommunications), Noise (signal processing), business.industry, Computer science, Attenuation, Line (geometry), business, Parallel, Algorithm, Imaging phantom, Collimated light
Abstract

The authors have proposed a new design for a transmission source which uses a system of multiple parallel line sources. It does not require complicated hardware, it allows the activity distribution to be tailored to the shape of the human body, minimizes both the amount of activity being used and patient dose, and substantially reduces the problem of low counts in transmission scans which can arise when large patients are scanned. The authors have built and investigated two systems based on line sources, namely the Collimated Line Sources (CLS) (10 lines) and the Multiple Line Array (MLA) (20 lines). Since they use different source positions and collimations, the systems require different approaches to the data processing and map reconstruction. This study presents a comparison of the results of simulations and phantom experiments performed using these two systems. Qualitative and quantitative analyzes of the attenuation maps were performed. The results of the authors' tests showed that transmission maps obtained with multiple line sources are artifact free, have good uniformity, 2-3% accuracy, about 1-1.5 cm resolution, and acceptable levels of noise. Preliminary simultaneous emission/transmission studies using MLA system and involving both phantom and patients have demonstrated that these maps can be successfully used to correct for attenuation.

Published
2002

50. Photosynthetic Performance of Tidally Flooded Spartina AlternifloraSalt Marshes

Author

Mao, Lishen, Mishra, Deepak R., Hawman, Peter A., Narron, Caroline R., O’Connell, Jessica L., and Cotten, David L.

Abstract

Spartina alterniflorahas a distinct flood‐adapted morphology, and its physiological responses are likely to vary with differences in tidal submergence. To understand these responses, we examined the impacts of tidal inundation on the efficiency of Photosystem II (φPSII) photochemistry and leaf‐level photosynthesis at different canopy heights through a combination of in situ chlorophyll fluorescence (ChlF), incident photosynthetically active radiation, and tide levels. Our result showed small declines (7%–8.3%) in φPSII for air‐exposed leaves when the bottom canopies were tidally submerged. Submerged leaves produced large reductions (30.3%–41%) in φPSII. Our results suggest that when submerged, PSII reaction centers in S. alternifloraleaves are still active and able to transfer electrons, but only at ∼20% of the typical daily rate. We attribute this reduction in φPSII to the decrease in the fraction of “open” PSII reaction centers (10% of the total) and the stomatal conductance rate caused by the tidal submergence. To our knowledge, this flooding induced leaf‐level reduction of φPSII for S. alterniflorain field settings has not been reported before. Our findings suggest that canopy‐level φPSII is dependent on the proportion of submerged versus emerged leaves and highlight the complexities involved in estimating the photosynthetic efficiency of tidal marshes. The photosynthetic performance of coastal marshes, an important blue carbon ecosystem, under tidal flooding has not been extensively studied. Our study aimed to understand and analyze coastal marsh plant photosynthesis under varying tide heights and answer a few fundamental questions related to the differences in the photosynthesis rates between air‐exposed and submerged parts of the canopy. Our field observations on the relationship between leaf‐level chlorophyll fluorescence of Spartina alternifloramarsh plant and tide levels showed that photochemical efficiency differed markedly based on leaf submergence. Additionally, we observed greatly reduced but active underwater photosynthesis activities in fully submerged leaves, suggesting that S. alterniflorapotentially remains a carbon sink during tidal inundation. We conclude that the impact of flooding on leaf‐level photosynthesis is driven by their submergence status, and the proportion of emerged and submerged leaves is a significant variable in estimating the photochemical efficiency at the canopy scale. This study can help establish empirical links between canopy chlorophyll fluorescence and carbon fluxes and improve carbon budget estimations at larger scales for these increasingly fragile and important blue carbon ecosystems. We present novel leaf‐scale pulse‐amplitude modulated (PAM) measurements to study the photosynthetic performance of salt marsh at different inundation levelsWe found the influence of tidal inundation on Spartina alternifloraphotosynthetic efficiency varied across the canopy and tide rangesWe found only 20% of the photosystem II reaction centers in S. alternifloraleaves are open for electron transfer when submerged We present novel leaf‐scale pulse‐amplitude modulated (PAM) measurements to study the photosynthetic performance of salt marsh at different inundation levels We found the influence of tidal inundation on Spartina alternifloraphotosynthetic efficiency varied across the canopy and tide ranges We found only 20% of the photosystem II reaction centers in S. alternifloraleaves are open for electron transfer when submerged

Published
2023
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