Your search keyword '"J. Webby"' showing total 673 results

1. Innate immune control of influenza virus interspecies adaptation via IFITM3

Author

Parker J. Denz, Samuel Speaks, Adam D. Kenney, Adrian C. Eddy, Jonathan L. Papa, Jack Roettger, Sydney C. Scace, Adam Rubrum, Emily A. Hemann, Adriana Forero, Richard J. Webby, Andrew S. Bowman, and Jacob S. Yount

Subjects

Science

Abstract

Abstract Influenza virus pandemics are caused by viruses from animal reservoirs that adapt to efficiently infect and replicate in human hosts. Here, we investigate whether Interferon-Induced Transmembrane Protein 3 (IFITM3), a host antiviral factor with known human deficiencies, plays a role in interspecies virus infection and adaptation. We find that IFITM3-deficient mice and human cells can be infected with low doses of avian influenza viruses that fail to infect WT counterparts, identifying a new role for IFITM3 in controlling the minimum infectious virus dose threshold. Remarkably, influenza viruses passaged through Ifitm3 −/− mice exhibit enhanced host adaptation, a result that is distinct from viruses passaged in mice deficient for interferon signaling, which exhibit attenuation. Our data demonstrate that IFITM3 deficiency uniquely facilitates potentially zoonotic influenza virus infections and subsequent adaptation, implicating IFITM3 deficiencies in the human population as a vulnerability for emergence of new pandemic viruses.

Published

2024

2. Avian and Human Influenza A Virus Receptors in Bovine Mammary Gland

Author

Charlotte Kristensen, Henrik E. Jensen, Ramona Trebbien, Richard J. Webby, and Lars E. Larsen

Subjects

influenza A virus, influenza, viruses, host tropism, sialic acid, receptor, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

An outbreak of influenza A (H5N1) virus was detected in dairy cows in the United States. We detected influenza A virus sialic acid -α2,3/α2,6-galactose host receptors in bovine mammary glands by lectin histochemistry. Our results provide a rationale for the high levels of H5N1 virus in milk from infected cows.

Published

2024

3. Transmission dynamics of avian influenza viruses in Egyptian poultry markets

Author

Sara H. Mahmoud, Mokhtar Gomaa, Ahmed El Taweel, Yassmin Moatasim, Mina Nabil Kamel, Mohamed El Sayes, Noura M. Abo Shama, Rebecca Badra, Mona Mahmoud, Pamela P. McKenzie, Richard J. Webby, Ahmed Kandeil, Mohamed Ahmed Ali, Rabeh El-Shesheny, and Ghazi Kayali

Subjects

Infectious and parasitic diseases, RC109-216, Biology (General), QH301-705.5

Abstract

Abstract Live bird markets (LBMs) are considered hotspots for Avian Influenza Viruses (AIVs). In such markets, AIVs pose threats to both poultry and public health. Within LBMs, AIVs spread through various routes, including direct contact, environmental contamination, and aerosol transmission. Unique factors in Egyptian LBMs, such as the coexistence of wild and domestic birds, increase transmission risks between birds as well as spill-overs into exposed humans. Understanding the transmission dynamics of AIVs is vital for implementing effective control measures. We conducted a study in four Egyptian LBMs located in Mediterranean coast cities from November 2021 to March 2023. In this study we tested 3,971 samples from poultry, wild birds, and the environment, out of which 692 (17.4%) were positive for AIV. Poultry exhibited a higher prevalence (42.2%) than wild birds (34.4%). Environmental samples, including water (30.8%), surfaces (17.2%), and air (18.2%), also tested positive for AIV. Diverse AIV subtypes, including H5N1, H9N2, H5/H9 co-infection, and H5N8, were detected among avian species and the environment. Temporal analysis revealed fluctuating IAV positivity rates from November 2021 to March 2023. These results emphasize the importance of continuous surveillance, resource allocation, and multisectoral collaboration to protect poultry and human health, and prevent novel influenza strains’ emergence in Egyptian LBMs.

Published

2024

4. A(H2N2) and A(H3N2) influenza pandemics elicited durable cross-reactive and protective antibodies against avian N2 neuraminidases

Author

Zaolan Liang, Xia Lin, Lihong Sun, Kimberly M. Edwards, Wenjun Song, Hailiang Sun, Yanmin Xie, Fangmei Lin, Shiman Ling, Tingting Liang, Biying Xiao, Jiaqi Wang, Min Li, Chin-Yu Leung, Huachen Zhu, Nisha Bhandari, Raghavan Varadarajan, Min Z. Levine, Malik Peiris, Robert Webster, Vijaykrishna Dhanasekaran, Nancy H. L. Leung, Benjamin J. Cowling, Richard J. Webby, Mariette Ducatez, Mark Zanin, and Sook-San Wong

Subjects

Science

Abstract

Abstract Human cases of avian influenza virus (AIV) infections are associated with an age-specific disease burden. As the influenza virus N2 neuraminidase (NA) gene was introduced from avian sources during the 1957 pandemic, we investigate the reactivity of N2 antibodies against A(H9N2) AIVs. Serosurvey of healthy individuals reveal the highest rates of AIV N2 antibodies in individuals aged ≥65 years. Exposure to the 1968 pandemic N2, but not recent N2, protected against A(H9N2) AIV challenge in female mice. In some older adults, infection with contemporary A(H3N2) virus could recall cross-reactive AIV NA antibodies, showing discernable human- or avian-NA type reactivity. Individuals born before 1957 have higher anti-AIV N2 titers compared to those born between 1957 and 1968. The anti-AIV N2 antibodies titers correlate with antibody titers to the 1957 N2, suggesting that exposure to the A(H2N2) virus contribute to this reactivity. These findings underscore the critical role of neuraminidase immunity in zoonotic and pandemic influenza risk assessment.

Published

2024

5. Tracing household transmission of SARS-CoV-2 in New Zealand using genomics

Author

Lauren Jelley, Nayyereh Aminisani, Meaghan O’Neill, Tineke Jennings, Jordan Douglas, Srushti Utekar, Helen Johnston, David Welch, James Hadfield, SHIVERS Investigation Team, Joep de Ligt, David Winter, Nigel French, Paul G. Thomas, Richard J. Webby, Sue Huang, and Jemma L. Geoghegan

Subjects

Infectious and parasitic diseases, RC109-216, Biology (General), QH301-705.5

Abstract

Abstract By early 2022, the highly transmissible Omicron variant of SARS-CoV-2 had spread across most of the world. For the first time since the pandemic began, New Zealand was experiencing high levels of community transmission of SARS-CoV-2. We enroled a cohort of households to better understand differences in transmission dynamics among subvariants of Omicron. We enroled 71 households, comprising 289 participants, and aimed to use viral genomes to gain a clearer understanding of variant-specific differences in epidemiological parameters affecting transmission dynamics. Approximately 80% of the households enroled experienced transmission of BA.2, while most of the remaining households had infections with BA.1 or BA.5. Using a logistic regression generalised linear mixed model, we found no difference in household secondary infection rate between Omicron subvariants BA.1, BA.2 and BA.5. Of the households recruited, the vast majority (92%) experienced a single chain of transmission with one inferred introduction. Further, we found that in 48% of the households studied, all household participants became infected following an index case. Most household participants tested positive within a week following an introduction, supporting the seven-day isolation requirement for household contacts that was in place in New Zealand at the time. By integrating genomic and epidemiological data, we show that viral transmission dynamics can be investigated with a higher level of granularity than with epidemiological data alone. Overall, households are a high risk setting for viral transmission in New Zealand.

Published

2024

6. H9N2 influenza A viruses found to be enzootic in Punjab Pakistan's bird markets with evidence of human H9N2 nasal colonization

Author

Shahzad Ali, Emily R. Robie, Usama Saeed, Ghulam Jaffar, Emily S. Bailey, Lyudmyla V. Marushchak, Brianna E. Kreditor, Laura A. Pulscher, Adam M. Rubrum, Richard J. Webby, and Gregory C. Gray

Subjects

Human-animal interface, Influenza A virus, Influenza D virus, Poultry, Live bird market, Avian influenza, Infectious and parasitic diseases, RC109-216

Abstract

Objectives: This study sought to detect and characterize influenza A (IAV) and influenza D (IDV) viruses circulating among commercial birds and shop owners in Pakistan's live bird markets. Methods: Oropharyngeal swabs (n = 600; n = 300 pools) collected from poultry and nasopharyngeal swabs (n = 240) collected from poultry workers were studied for molecular evidence of IAV and IDV using real-time and conventional real-time reverse transcription polymerase chain reaction protocols. Results: Nineteen (6.3%) poultry pools were positive for IAV and 73.9% of these were positive for H9N2 subtypes. Two (0.83%) poultry workers had evidence of IAV, and both were also H9N2 subtypes. The poultry and human IAV-positive specimens all clustered phylogenetically by Sanger and next-generation sequencing with previously detected H9N2 poultry isolates. No field specimens were positive for IDV. Conclusion: H9N2 IAV is likely enzootic in Punjab Province Pakistan's live bird markets and may be colonizing the noses of workers and market visitors. Regular monitoring for avian influenza-associated human illness in Punjab seems to be a needed public measure.

Published

2024

7. Development of a nucleoside-modified mRNA vaccine against clade 2.3.4.4b H5 highly pathogenic avian influenza virus

Author

Colleen Furey, Gabrielle Scher, Naiqing Ye, Lisa Kercher, Jennifer DeBeauchamp, Jeri Carol Crumpton, Trushar Jeevan, Christopher Patton, John Franks, Adam Rubrum, Mohamad-Gabriel Alameh, Steven H. Y. Fan, Anthony T. Phan, Christopher A. Hunter, Richard J. Webby, Drew Weissman, and Scott E. Hensley

Subjects

Science

Abstract

Abstract mRNA lipid nanoparticle (LNP) vaccines would be useful during an influenza virus pandemic since they can be produced rapidly and do not require the generation of egg-adapted vaccine seed stocks. Highly pathogenic avian influenza viruses from H5 clade 2.3.4.4b are circulating at unprecedently high levels in wild and domestic birds and have the potential to adapt to humans. Here, we generate an mRNA lipid nanoparticle (LNP) vaccine encoding the hemagglutinin (HA) glycoprotein from a clade 2.3.4.4b H5 isolate. The H5 mRNA-LNP vaccine elicits strong T cell and antibody responses in female mice, including neutralizing antibodies and broadly-reactive anti-HA stalk antibodies. The H5 mRNA-LNP vaccine elicits antibodies at similar levels compared to whole inactivated vaccines in female mice with and without prior H1N1 exposures. Finally, we find that the H5 mRNA-LNP vaccine is immunogenic in male ferrets and prevents morbidity and mortality of animals following 2.3.4.4b H5N1 challenge. Together, our data demonstrate that a monovalent mRNA-LNP vaccine expressing 2.3.4.4b H5 is immunogenic and protective in pre-clinical animal models.

Published

2024

8. Cross-species spill-over potential of the H9N2 bat influenza A virus

Author

Rabeh El-Shesheny, John Franks, Ahmed Kandeil, Rebecca Badra, Jasmine Turner, Patrick Seiler, Bindumadhav M. Marathe, Trushar Jeevan, Lisa Kercher, Meng Hu, Yul Eum Sim, Kenrie P. Y. Hui, Michael C. W. Chan, Andrew J. Thompson, Pamela McKenzie, Elena A. Govorkova, Charles J. Russell, Peter Vogel, James C. Paulson, J. S. Malik Peiris, Robert G. Webster, Mohamed A. Ali, Ghazi Kayali, and Richard J. Webby

Subjects

Science

Abstract

Abstract In 2017, a novel influenza A virus (IAV) was isolated from an Egyptian fruit bat. In contrast to other bat influenza viruses, the virus was related to avian A(H9N2) viruses and was probably the result of a bird-to-bat transmission event. To determine the cross-species spill-over potential, we biologically characterize features of A/bat/Egypt/381OP/2017(H9N2). The virus has a pH inactivation profile and neuraminidase activity similar to those of human-adapted IAVs. Despite the virus having an avian virus–like preference for α2,3 sialic acid receptors, it is unable to replicate in male mallard ducks; however, it readily infects ex-vivo human respiratory cell cultures and replicates in the lungs of female mice. A/bat/Egypt/381OP/2017 replicates in the upper respiratory tract of experimentally-infected male ferrets featuring direct-contact and airborne transmission. These data suggest that the bat A(H9N2) virus has features associated with increased risk to humans without a shift to a preference for α2,6 sialic acid receptors.

Published

2024

9. Highly pathogenic avian influenza A(H5N1) virus in a common bottlenose dolphin (Tursiops truncatus) in Florida

Author

Allison Murawski, Thomas Fabrizio, Robert Ossiboff, Christina Kackos, Trushar Jeevan, Jeremy C. Jones, Ahmed Kandeil, David Walker, Jasmine C. M. Turner, Christopher Patton, Elena A. Govorkova, Helena Hauck, Suzanna Mickey, Brittany Barbeau, Y. Reddy Bommineni, Mia Torchetti, Kristina Lantz, Lisa Kercher, Andrew B. Allison, Peter Vogel, Michael Walsh, and Richard J. Webby

Subjects

Biology (General), QH301-705.5

Abstract

Abstract Since late 2021, highly pathogenic avian influenza (HPAI) viruses of A/goose/Guangdong/1/1996 (H5N1) lineage have caused widespread mortality in wild birds and poultry in the United States. Concomitant with the spread of HPAI viruses in birds are increasing numbers of mammalian infections, including wild and captive mesocarnivores and carnivores with central nervous system involvement. Here we report HPAI, A(H5N1) of clade 2.3.4.4b, in a common bottlenose dolphin (Tursiops truncatus) from Florida, United States. Pathological findings include neuronal necrosis and inflammation of the brain and meninges, and quantitative real time RT-PCR reveal the brain carried the highest viral load. Virus isolated from the brain contains a S246N neuraminidase substitution which leads to reduced inhibition by neuraminidase inhibitor oseltamivir. The increased prevalence of A(H5N1) viruses in atypical avian hosts and its cross-species transmission into mammalian species highlights the public health importance of continued disease surveillance and biosecurity protocols.

Published

2024

10. Cross-neutralizing antibody against emerging Omicron subvariants of SARS-CoV-2 in infection-naïve individuals with homologous BNT162b2 or BNT162b2(WT + BA.4/5) bivalent booster vaccination

Author

Samuel M.S. Cheng, Chris K.P. Mok, John K.C. Li, Ken K.P. Chan, Kristine S. Luk, Ben H.W. Lee, Haogao Gu, Karl C.K. Chan, Leo C.H. Tsang, Karen Y.S. Yiu, Ken K.C. Ling, Yun Sang Tang, Leo L.H. Luk, Jennifer K.M. Yu, Andrew Pekosz, Richard J. Webby, Benjamin J. Cowling, David S.C. Hui, and Malik Peiris

Subjects

SARS-CoV-2, Omicron subvariant, Immune evasion, Neutralization, Antigenic cartography, Bivalent RNA vaccine, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Since the emergence of SARS-CoV-2, different variants and subvariants successively emerged to dominate global virus circulation as a result of immune evasion, replication fitness or both. COVID-19 vaccines continue to be updated in response to the emergence of antigenically divergent viruses, the first being the bivalent RNA vaccines that encodes for both the Wuhan-like and Omicron BA.5 subvariant spike proteins. Repeated infections and vaccine breakthrough infections have led to complex immune landscapes in populations making it increasingly difficult to assess the intrinsic neutralizing antibody responses elicited by the vaccines. Hong Kong’s intensive COVID-19 containment policy through 2020–2021 permitted us to identify sera from a small number of infection-naïve individuals who received 3 doses of the RNA BNT162b2 vaccine encoding the Wuhan-like spike (WT) and were boosted with a fourth dose of the WT vaccine or the bivalent WT and BA.4/5 spike (WT + BA.4/5). While neutralizing antibody to wild-type virus was comparable in both vaccine groups, BNT162b2 (WT + BA.4/BA.5) bivalent vaccine elicited significantly higher plaque neutralizing antibodies to Omicron subvariants BA.5, XBB.1.5, XBB.1.16, XBB.1.9.1, XBB.2.3.2, EG.5.1, HK.3, BA.2.86 and JN.1, compared to BNT162b2 monovalent vaccine. The single amino acid substitution that differentiates the spike of JN.1 from BA.2.86 resulted in a profound antigenic change.

Published

2024

11. Spatial patterns of influenza A virus spread across compartments in commercial swine farms in the United States

Author

Bijaya Hatuwal, Varun Goel, Thomas J. Deliberto, Jim Lowe, Michael Emch, Richard J. Webby, and Xiu-Feng Wan

Subjects

Influenza A virus, swine influenza virus, transmission, commercial swine farm, farm system, migration rate, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

Multiple genetic variants of H1 and H3 influenza A viruses (IAVs) circulate concurrently in US swine farms. Understanding the spatial transmission patterns of IAVs among these farms is crucial for developing effective control strategies and mitigating the emergence of novel IAVs. In this study, we analysed 1909 IAV genomic sequences from 785 US swine farms, representing 33 farming systems across 12 states, primarily in the Midwest from 2004 to 2023. Bayesian phylogeographic analyses were performed to identify the dispersal patterns of both H1 and H3 virus genetic lineages and to elucidate their spatial migration patterns within and between different systems. Our results showed that both intra-system and inter-system migrations occurred between the swine farms, with intra-system migrations being more frequent. However, migration rates for H1 and H3 IAVs were similar between intra-system and inter-system migration events. Spatial migration patterns aligned with expected pig movement across different compartments of swine farming systems. Sow-Farms were identified as key sources of viruses, with bi-directional migration observed between these farms and other parts of the system, including Wean-to-Finish and Gilt-Development-Units. High intra-system migration was detected across farms in the same region, while spread to geographically distant intra- and inter-system farms was less frequent. These findings suggest that prioritizing resources towards systems frequently confronting influenza problems and targeting pivotal source farms, such as sow farms, could be an effective strategy for controlling influenza in US commercial swine operations.

Published

2024

12. Highly pathogenic avian influenza virus H5N1 clade 2.3.4.4b in wild rats in Egypt during 2023

Author

Omnia Kutkat, Mokhtar Gomaa, Yassmin Moatasim, Ahmed El Taweel, Mina Nabil Kamel, Mohamed El Sayes, Mohamed GabAllah, Ahmed Kandeil, Pamela P. McKenzie, Richard J. Webby, Ghazi Kayali, Mohamed Ahmed Ali, and Rabeh El-Shesheny

Subjects

Influenza, HPAI, rat, egypt, surveillance, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

We detected highly pathogenic avian influenza A(H5N1) virus in wild rats collected from a rural area in Giza, Egypt, near poultry farms, markets, and backyard flocks. Sequence and phylogenetic analyses indicated that the virus from the rats belonged to clade 2.3.4.4b, which has been the predominant virus genotype circulating in Egypt and worldwide since 2021-2022. Active surveillance of avian influenza viruses in wild and domestic mammals is recommended to prevent further spread to mammals and humans.

Published

2024

13. Pigs are highly susceptible to but do not transmit mink-derived highly pathogenic avian influenza virus H5N1 clade 2.3.4.4b

Author

Taeyong Kwon, Jessie D. Trujillo, Mariano Carossino, Eu Lim Lyoo, Chester D. McDowell, Konner Cool, Franco S. Matias-Ferreyra, Trushar Jeevan, Igor Morozov, Natasha N. Gaudreault, Udeni B.R. Balasuriya, Richard J. Webby, Nikolaus Osterrieder, and Juergen A. Richt

Subjects

Pigs, clade 2.3.4.4b, highly pathogenic avian influenza virus, H5N1, mammalian-like adaptations, mink isolate, transmission, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

ABSTRACTRapid evolution of highly pathogenic avian influenza viruses (HPAIVs) is driven by antigenic drift but also by reassortment, which might result in robust replication in and transmission to mammals. Recently, spillover of clade 2.3.4.4b HPAIV to mammals including humans, and their transmission between mammalian species has been reported. This study aimed to evaluate the pathogenicity and transmissibility of a mink-derived clade 2.3.4.4b H5N1 HPAIV isolate from Spain in pigs. Experimental infection caused interstitial pneumonia with necrotizing bronchiolitis with high titers of virus present in the lower respiratory tract and 100% seroconversion. Infected pigs shed limited amount of virus, and importantly, there was no transmission to contact pigs. Notably, critical mammalian-like adaptations such as PB2-E627 K and HA-Q222L emerged at low frequencies in principal-infected pigs. It is concluded that pigs are highly susceptible to infection with the mink-derived clade 2.3.4.4b H5N1 HPAIV and provide a favorable environment for HPAIV to acquire mammalian-like adaptations.

Published

2024

14. Amino acids in the polymerase complex of shorebird-isolated H1N1 influenza virus impact replication and host-virus interactions in mammalian models

Author

Yaqin Bai, Hui Lei, Wenjun Song, Sang-Chul Shin, Jiaqi Wang, Biying Xiao, Zeynep A. Koçer, Min-Suk Song, Robert Webster, Richard J. Webby, Sook-San Wong, and Mark Zanin

Subjects

Influenza virus, zoonosis, polymerase, H1N1, avian, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

A diverse population of avian influenza A viruses (AIVs) are maintained in wild birds and ducks yet the zoonotic potential of AIVs in these environmental reservoirs and the host-virus interactions involved in mammalian infection are not well understood. In studies of a group of subtype H1N1 AIVs isolated from migratory wild birds during surveillance in North America, we previously identified eight amino acids in the polymerase genes PB2 and PB1 that were important for the transmissibility of these AIVs in a ferret model of human influenza virus transmission. In this current study we found that PB2 containing amino acids associated with transmissibility at 67, 152, 199, 508, and 649 and PB1 at 298, 642, and 667 were associated with more rapid viral replication kinetics, greater infectivity, more active polymerase complexes and greater kinetics of viral genome replication and transcription. Pathogenicity in the mouse model was also impacted, evident as greater weight loss and lung pathology associated with greater inflammatory lung cytokine expression. Further, these AIVs all contained the avian-type amino acids of PB2-E627, D701, G590, Q591 and T271. Therefore, our study provides novel insights into the role of the AIV polymerase complex in the zoonotic transmission of AIVs in mammals.

Published

2024

15. Multiple transatlantic incursions of highly pathogenic avian influenza clade 2.3.4.4b A(H5N5) virus into North America and spillover to mammals

Author

Cassidy N.G. Erdelyan, Ahmed Kandeil, Anthony V. Signore, Megan E.B. Jones, Peter Vogel, Konstantin Andreev, Cathrine Arnason Bøe, Britt Gjerset, Tamiru N. Alkie, Carmencita Yason, Tamiko Hisanaga, Daniel Sullivan, Oliver Lung, Laura Bourque, Ifeoluwa Ayilara, Lemarie Pama, Trushar Jeevan, John Franks, Jeremy C. Jones, Jon P. Seiler, Lance Miller, Samira Mubareka, Richard J. Webby, and Yohannes Berhane

Subjects

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

Abstract

Summary: Highly pathogenic avian influenza (HPAI) viruses have spread at an unprecedented scale, leading to mass mortalities in birds and mammals. In 2023, a transatlantic incursion of HPAI A(H5N5) viruses into North America was detected, followed shortly thereafter by a mammalian detection. As these A(H5N5) viruses were similar to contemporary viruses described in Eurasia, the transatlantic spread of A(H5N5) viruses was most likely facilitated by pelagic seabirds. Some of the Canadian A(H5N5) viruses from birds and mammals possessed the PB2-E627K substitution known to facilitate adaptation to mammals. Ferrets inoculated with A(H5N5) viruses showed rapid, severe disease onset, with some evidence of direct contact transmission. However, these viruses have maintained receptor binding traits of avian influenza viruses and were susceptible to oseltamivir and zanamivir. Understanding the factors influencing the virulence and transmission of A(H5N5) in migratory birds and mammals is critical to minimize impacts on wildlife and public health.

Published

2024

16. Immunity and Protective Efficacy of a Plant-Based Tobacco Mosaic Virus-like Nanoparticle Vaccine against Influenza a Virus in Mice

Author

Adthakorn Madapong, Erika M. Petro-Turnquist, Richard J. Webby, Alison A. McCormick, and Eric A. Weaver

Subjects

hemagglutinin, influenza A virus, mouse, plant-based manufacturing, tobacco mosaic virus, vaccine, Medicine

Abstract

Background: The rapid production of influenza vaccines is crucial to meet increasing pandemic response demands. Here, we developed plant-made vaccines comprising centralized consensus influenza hemagglutinin (HA-con) proteins (H1 and H3 subtypes) conjugated to a modified plant virus, tobacco mosaic virus (TMV) nanoparticle (TMV-HA-con). Methods: We compared immune responses and protective efficacy against historical H1 or H3 influenza A virus infections among TMV-HA-con, HA-con protein combined with AddaVax™ adjuvant, and whole-inactivated virus vaccine (Fluzone®). Results: Immunogenicity studies demonstrated robust IgG, IgM, and IgA responses in the TMV-HA-con and HA-con protein vaccinated groups, with relatively low induction of interferon (IFN)-γ+ T-cell responses across all vaccinated groups. The TMV-HA-con and HA-con protein groups displayed partial protection (100% and 80% survival) with minimal weight loss following challenge with two H1N1 strains. The HA-con protein group exhibited 80% and 100% survival against two H3 strains, whereas the TMV-HA-con groups showed reduced protection (20% survival). The Fluzone® group conferred 20–100% survival against two H1N1 strains and one H3N1 strain, but did not protect against H3N2 infection. Conclusions: Our findings indicate that TMV-HA and HA-con protein vaccines with adjuvant induce protective immune responses against influenza A virus infections. Furthermore, our results underscore the potential of plant-based production using TMV-like nanoparticles for developing influenza A virus candidate vaccines.

Published

2024

17. Systems genetics of influenza A virus-infected mice identifies TRIM21 as a critical regulator of pulmonary innate immune response

Author

Zhuoyuan Alex Li, Akhilesh Kumar Bajpai, Ruixue Wang, Yaxin Liu, Richard J. Webby, Esther Wilk, Weikuan Gu, Klaus Schughart, Kui Li, and Lu Lu

Subjects

TRIM21, Influenza A virus, BXD mice, Transcriptome, Recombinant inbred, Innate immunity, Microbiology, QR1-502, Infectious and parasitic diseases, RC109-216

Abstract

Tripartite motif 21 (TRIM21) is a cytosolic Fc receptor that targets antibody-bound, internalized pathogens for destruction. Apart from this intrinsic defense role, TRIM21 is implicated in autoimmune diseases, inflammation, and autophagy. Whether TRIM21 participates in host interactions with influenza A virus (IAV), however, is unknown. By computational modeling of body weight and lung transcriptome data from the BXD parents (C57BL/6 J (B6) and DBA/2 J (D2)) and 41 BXD mouse strains challenged by IAV, we reveal that a Trim21-associated gene network modulates the early host responses to IAV infection. Trim21 transcripts were significantly upregulated in infected mice of both B6 and D2 backgrounds. Its expression was significantly higher in infected D2 than in infected B6 early after infection and significantly correlated with body weight loss. We identified significant trans-eQTL on chromosome 14 that regulates Trim21 expression. Nr1d2 and Il3ra were among the strongest candidate genes. Pathway analysis found Trim21 to be involved in inflammation and immunity related pathways, such as inflammation signaling pathways (TNF, IL-17, and NF-κB), viral detection signaling pathways (NOD-like and RIG-I-like), influenza, and other respiratory viral infections. Knockdown of TRIM21 in human lung epithelial A549 cells significantly augmented IAV-induced expression of IFNB1, IFNL1, CCL5, CXCL10, and IFN-stimulated genes including DDX58 and IFIH1, among others. Our data suggest that a TRIM21-associated gene network is involved in several aspects of inflammation and viral detection mechanisms during IAV infection. We identify and validate TRIM21 as a critical regulator of innate immune responses to IAV in human lung epithelial cells.

Published

2024

18. Seasonal quadrivalent mRNA vaccine prevents and mitigates influenza infection

Author

Christina M. Kackos, Jennifer DeBeauchamp, Christopher J. H. Davitt, Jan Lonzaric, Robert E. Sealy, Julia L. Hurwitz, Marcelo M. Samsa, and Richard J. Webby

Subjects

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

Abstract

Abstract Annually, seasonal influenza is responsible for millions of infections and hundreds of thousands of deaths. The current method for managing influenza is vaccination using a standardized amount of the influenza virus’ primary surface antigen, hemagglutinin (HA), as the intended target of the immune response. This vaccination strategy results in vaccines with variable efficacy year to year due to antigenic drift of HA, which can be further exacerbated by manufacturing processes optimizing growth of vaccine virus in eggs. Due to these limitations, alternative vaccine platforms are actively being explored to improve influenza vaccine efficacy, including cell-based, recombinant protein, and mRNA vaccines. mRNA’s rapid, in vitro production makes it an appealing platform for influenza vaccination, and the success of SARS-CoV-2 mRNA vaccines in the clinic has encouraged the development of mRNA vaccines for other pathogens. Here, the immunogenicity and protective efficacy of a quadrivalent mRNA vaccine encoding HA from four seasonal influenza viruses, A/California/07/2009 (H1N1), A/Hong Kong/4801/2014 (H3N2), B/Brisbane/60/2008 (B-Victoria lineage), and B/Phuket/3073/2013 (B-Yamagata lineage), was evaluated. In mice, a 120 μg total dose of this quadrivalent mRNA vaccine induced robust antibody titers against each subtype that were commensurate with titers when each antigen was administered alone. Following A/California/04/2009 challenge, mice were fully protected from morbidity and mortality, even at doses as low as 1 μg of each antigen. Additionally, a single administration of 10 μg of quadrivalent mRNA was sufficient to prevent weight loss caused by A/California/04/2009. These results support the promise of this mRNA vaccine for prevention and mitigation of influenza vaccine.

Published

2023

19. Correction: El-Shesheny et al. Highly Pathogenic Avian Influenza A(H5N1) Virus Clade 2.3.4.4b in Wild Birds and Live Bird Markets, Egypt. Pathogens 2023, 12, 36

Author

Rabeh El-Shesheny, Yassmin Moatasim, Sara H. Mahmoud, Yi Song, Ahmed El Taweel, Mokhtar Gomaa, Mina Nabil Kamel, Mohamed El Sayes, Ahmed Kandeil, Tommy T. Y. Lam, Pamela P. McKenzie, Richard J. Webby, Ghazi Kayali, and Mohamed Ahmed Ali

Subjects

n/a, Medicine

Abstract

Text Correction [...]

Published

2024

20. Accelerated evolution of SARS-CoV-2 in free-ranging white-tailed deer

Author

Dillon S. McBride, Sofya K. Garushyants, John Franks, Andrew F. Magee, Steven H. Overend, Devra Huey, Amanda M. Williams, Seth A. Faith, Ahmed Kandeil, Sanja Trifkovic, Lance Miller, Trushar Jeevan, Anami Patel, Jacqueline M. Nolting, Michael J. Tonkovich, J. Tyler Genders, Andrew J. Montoney, Kevin Kasnyik, Timothy J. Linder, Sarah N. Bevins, Julianna B. Lenoch, Jeffrey C. Chandler, Thomas J. DeLiberto, Eugene V. Koonin, Marc A. Suchard, Philippe Lemey, Richard J. Webby, Martha I. Nelson, and Andrew S. Bowman

Subjects

Science

Abstract

Abstract The zoonotic origin of the COVID-19 pandemic virus highlights the need to fill the vast gaps in our knowledge of SARS-CoV-2 ecology and evolution in non-human hosts. Here, we detected that SARS-CoV-2 was introduced from humans into white-tailed deer more than 30 times in Ohio, USA during November 2021-March 2022. Subsequently, deer-to-deer transmission persisted for 2–8 months, disseminating across hundreds of kilometers. Newly developed Bayesian phylogenetic methods quantified how SARS-CoV-2 evolution is not only three-times faster in white-tailed deer compared to the rate observed in humans but also driven by different mutational biases and selection pressures. The long-term effect of this accelerated evolutionary rate remains to be seen as no critical phenotypic changes were observed in our animal models using white-tailed deer origin viruses. Still, SARS-CoV-2 has transmitted in white-tailed deer populations for a relatively short duration, and the risk of future changes may have serious consequences for humans and livestock.

Published

2023

21. Avian influenza viruses in New Zealand wild birds, with an emphasis on subtypes H5 and H7: Their distinctive epidemiology and genomic properties

Author

Wlodek L. Stanislawek, Toni Tana, Thomas G. Rawdon, Susan C. Cork, Kylie Chen, Hammed Fatoyinbo, Naomi Cogger, Richard J. Webby, Robert G. Webster, Maree Joyce, Mary Ann Tuboltsev, Della Orr, Sylvia Ohneiser, Jonathan Watts, Adrian C. Riegen, Matthew McDougall, David Klee, and Joseph S. O’Keefe

Subjects

Medicine, Science

Published

2024

22. Evidence of reassortment of avian influenza A (H2) viruses in Brazilian shorebirds

Author

Luciano M. Thomazelli, João Renato Rebello Pinho, Erick G. Dorlass, Tatiana Ometto, Carla Meneguin, Danielle Paludo, Rodolfo Teixeira Frias, Patricia Luciano Mancini, Cairo Monteiro, Sophie Marie Aicher, David Walker, Guilherme P. Scagion, Scott Krauss, Thomas Fabrizio, Maria Virgínia Petry, Angelo L. Scherer, Janete Scherer, Patricia P. Serafini, Isaac S. Neto, Deyvid Emanuel Amgarten, Fernanda de Mello Malta, Ana Laura Boechat Borges, Robert G. Webster, Richard J. Webby, Edison L. Durigon, and Jansen de Araujo

Subjects

Medicine, Science

Published

2024

23. Experimental infection of pigs and ferrets with 'pre-pandemic,' human-adapted, and swine-adapted variants of the H1N1pdm09 influenza A virus reveals significant differences in viral dynamics and pathological manifestations.

Author

Charlotte Kristensen, Helena A Laybourn, Jeri-Carol Crumpton, Karen Martiny, Ashley Webb, Pia Ryt-Hansen, Ramona Trebbien, Henrik E Jensen, Jakob N Nissen, Kerstin Skovgaard, Richard J Webby, and Lars E Larsen

Subjects

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

Abstract

Influenza A viruses are RNA viruses that cause epidemics in humans and are enzootic in the pig population globally. In 2009, pig-to-human transmission of a reassortant H1N1 virus (H1N1pdm09) caused the first influenza pandemic of the 21st century. This study investigated the infection dynamics, pathogenesis, and lesions in pigs and ferrets inoculated with natural isolates of swine-adapted, human-adapted, and "pre-pandemic" H1N1pdm09 viruses. Additionally, the direct-contact and aerosol transmission properties of the three H1N1pdm09 isolates were assessed in ferrets. In pigs, inoculated ferrets, and ferrets infected by direct contact with inoculated ferrets, the pre-pandemic H1N1pdm09 virus induced an intermediary viral load, caused the most severe lesions, and had the highest clinical impact. The swine-adapted H1N1pdm09 virus induced the highest viral load, caused intermediary lesions, and had the least clinical impact in pigs. The human-adapted H1N1pdm09 virus induced the highest viral load, caused the mildest lesions, and had the least clinical impact in ferrets infected by direct contact. The discrepancy between viral load and clinical impact presumably reflects the importance of viral host adaptation. Interestingly, the swine-adapted H1N1pdm09 virus was transmitted by aerosols to two-thirds of the ferrets. Further work is needed to assess the risk of human-to-human aerosol transmission of swine-adapted H1N1pdm09 viruses.

Published

2023

24. Emergence of a new genotype of clade 2.3.4.4b H5N1 highly pathogenic avian influenza A viruses in Bangladesh

Author

Subrata Barman, Jasmine C. M. Turner, M. Kamrul Hasan, Sharmin Akhtar, Trushar Jeevan, John Franks, David Walker, Nabanita Mukherjee, Patrick Seiler, Lisa Kercher, Pamela McKenzie, Robert G. Webster, Mohammed M. Feeroz, and Richard J. Webby

Subjects

Surveillance, avian influenza A virus, clade 2.3.4.4b H5N1, migratory birds, reassortment, domestic ducks, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

Influenza virological surveillance was conducted in Bangladesh from January to December 2021 in live poultry markets (LPMs) and in Tanguar Haor, a wetland region where domestic ducks have frequent contact with migratory birds. The predominant viruses circulating in LPMs were low pathogenic avian influenza (LPAI) H9N2 and clade 2.3.2.1a highly pathogenic avian influenza (HPAI) H5N1 viruses. Additional LPAIs were found in both LPM (H4N6) and Tanguar Haor wetlands (H7N7). Genetic analyses of these LPAIs strongly suggested long-distance movement of viruses along the Central Asian migratory bird flyway. We also detected a novel clade 2.3.4.4b H5N1 virus from ducks in free-range farms in Tanguar Haor that was similar to viruses first detected in October 2020 in The Netherlands but with a different PB2. Identification of clade 2.3.4.4b HPAI H5N1 viruses in Tanguar Haor provides continued support of the role of migratory birds in transboundary movement of influenza A viruses (IAV), including HPAI viruses. Domestic ducks in free range farm in wetland areas, like Tangua Haor, serve as a conduit for the introduction of LPAI and HPAI viruses into Bangladesh. Clade 2.3.4.4b viruses have dominated in many regions of the world since mid-2021, and it remains to be seen if these viruses will replace the endemic clade 2.3.2.1a H5N1 viruses in Bangladesh.

Published

2023

25. Rapid evolution of A(H5N1) influenza viruses after intercontinental spread to North America

Author

Ahmed Kandeil, Christopher Patton, Jeremy C. Jones, Trushar Jeevan, Walter N. Harrington, Sanja Trifkovic, Jon P. Seiler, Thomas Fabrizio, Karlie Woodard, Jasmine C. Turner, Jeri-Carol Crumpton, Lance Miller, Adam Rubrum, Jennifer DeBeauchamp, Charles J. Russell, Elena A. Govorkova, Peter Vogel, Mia Kim-Torchetti, Yohannes Berhane, David Stallknecht, Rebecca Poulson, Lisa Kercher, and Richard J. Webby

Subjects

Science

Abstract

Abstract Highly pathogenic avian influenza A(H5N1) viruses of clade 2.3.4.4b underwent an explosive geographic expansion in 2021 among wild birds and domestic poultry across Asia, Europe, and Africa. By the end of 2021, 2.3.4.4b viruses were detected in North America, signifying further intercontinental spread. Here we show that the western movement of clade 2.3.4.4b was quickly followed by reassortment with viruses circulating in wild birds in North America, resulting in the acquisition of different combinations of ribonucleoprotein genes. These reassortant A(H5N1) viruses are genotypically and phenotypically diverse, with many causing severe disease with dramatic neurologic involvement in mammals. The proclivity of the current A(H5N1) 2.3.4.4b virus lineage to reassort and target the central nervous system warrants concerted planning to combat the spread and evolution of the virus within the continent and to mitigate the impact of a potential influenza pandemic that could originate from similar A(H5N1) reassortants.

Published

2023

26. Epidemiology and molecular characterization of avian influenza A viruses H5N1 and H3N8 subtypes in poultry farms and live bird markets in Bangladesh

Author

Ariful Islam, Shariful Islam, Meerjady S. Flora, Emama Amin, Karlie Woodard, Ashley Webb, Robert G. Webster, Richard J. Webby, Mariette F. Ducatez, Mohammad M. Hassan, and Mohamed E. El Zowalaty

Subjects

Medicine, Science

Abstract

Abstract Avian influenza virus (AIV) remains a global threat, with waterfowl serving as the primary reservoir from which viruses spread to other hosts. Highly pathogenic avian influenza (HPAI) H5 viruses continue to be a devastating threat to the poultry industry and an incipient threat to humans. A cross-sectional study was conducted in seven districts of Bangladesh to estimate the prevalence and subtypes (H3, H5, and H9) of AIV in poultry and identify underlying risk factors and phylogenetic analysis of AIVs subtypes H5N1 and H3N8. Cloacal and oropharyngeal swab samples were collected from 500 birds in live bird markets (LBMs) and poultry farms. Each bird was sampled by cloacal and oropharyngeal swabbing, and swabs were pooled for further analysis. Pooled samples were analyzed for the influenza A virus (IAV) matrix (M) gene, followed by H5 and H9 molecular subtyping using real-time reverse transcription-polymerase chain reaction (rRT-PCR). Non-H5 and Non-H9 influenza A virus positive samples were sequenced to identify possible subtypes. Selected H5 positive samples were subjected to hemagglutinin (HA) and neuraminidase (NA) gene sequencing. Multivariable logistic regression was used for risk factor analysis. We found that IAV M gene prevalence was 40.20% (95% CI 35.98–44.57), with 52.38%, 46.96%, and 31.11% detected in chicken, waterfowl, and turkey, respectively. Prevalence of H5, H3, and H9 reached 22%, 3.4%, and 6.9%, respectively. Waterfowl had a higher risk of having AIV (AOR: 4.75), and H5 (AOR: 5.71) compared to chicken; more virus was detected in the winter season than in the summer season (AOR: 4.93); dead birds had a higher risk of AIVs and H5 detection than healthy birds, and the odds of H5 detection increased in LBM. All six H5N1 viruses sequenced were clade 2.3.2.1a-R1 viruses circulating since 2015 in poultry and wild birds in Bangladesh. The 12 H3N8 viruses in our study formed two genetic groups that had more similarity to influenza viruses from wild birds in Mongolia and China than to previous H3N8 viruses from Bangladesh. The findings of this study may be used to modify guidelines on AIV control and prevention to account for the identified risk factors that impact their spread.

Published

2023

27. Antibody and T cell responses against wild-type and Omicron SARS-CoV-2 after third-dose BNT162b2 in adolescents

Author

Xiaofeng Mu, Carolyn A. Cohen, Daniel Leung, Jaime S. Rosa Duque, Samuel M. S. Cheng, Yuet Chung, Howard H. W. Wong, Amos M. T. Lee, Wing Yan Li, Issan Y. S. Tam, Jennifer H. Y. Lam, Derek H. L. Lee, Sau Man Chan, Leo C. H. Tsang, Karl C. K. Chan, John K. C. Li, Leo L. H. Luk, Sara Chaothai, Kelvin K. H. Kwan, Nym Coco Chu, Masashi Mori, Trushar Jeevan, Ahmed Kandeil, Richard J. Webby, Wenwei Tu, Sophie A. Valkenburg, Malik Peiris, and Yu Lung Lau

Subjects

Medicine, Biology (General), QH301-705.5

Abstract

Abstract The high effectiveness of the third dose of BNT162b2 in healthy adolescents against Omicron BA.1 has been reported in some studies, but immune responses conferring this protection are not yet elucidated. In this analysis, our study (NCT04800133) aims to evaluate the humoral and cellular responses against wild-type and Omicron (BA.1, BA.2 and/or BA.5) SARS-CoV-2 before and after a third dose of BNT162b2 in healthy adolescents. At 5 months after 2 doses, S IgG, S IgG Fc receptor-binding, and neutralising antibody responses waned significantly, yet neutralising antibodies remained detectable in all tested adolescents and S IgG avidity increased from 1 month after 2 doses. The antibody responses and S-specific IFN-γ+ and IL-2+ CD8+ T cell responses were significantly boosted in healthy adolescents after a homologous third dose of BNT162b2. Compared to adults, humoral responses for the third dose were non-inferior or superior in adolescents. The S-specific IFN-γ+ and IL-2+ CD4+ and CD8+ T cell responses in adolescents and adults were comparable or non-inferior. Interestingly, after 3 doses, adolescents had preserved S IgG, S IgG avidity, S IgG FcγRIIIa-binding, against Omicron BA.2, as well as preserved cellular responses against BA.1 S and moderate neutralisation levels against BA.1, BA.2 and BA.5. Sera from 100 and 96% of adolescents tested at 1 and 5 months after two doses could also neutralise BA.1. Our study found high antibody and T cell responses, including potent cross-variant reactivity, after three doses of BNT162b2 vaccine in adolescents in its current formulation, suggesting that current vaccines can be protective against symptomatic Omicron disease.

Published

2022

28. Highly Pathogenic Avian Influenza A(H5N1) Clade 2.3.4.4b Virus in Poultry, Benin, 2021

Author

Idrissa Nonmon Sanogo, Fidelia Djegui, Yao Akpo, Corneille Gnanvi, Gabriel Dupré, Adam Rubrum, Trushar Jeevan, Pamela McKenzie, Richard J. Webby, and Mariette F. Ducatez

Subjects

highly pathogenic avian influenza, H5N1 subtype, influenza, respiratory infections, zoonoses, viruses, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

In August 2021, we detected highly pathogenic avian influenza A(H5N1) clade 2.3.4.4b viruses in poultry in southern Benin. The isolates were genetically similar to H5N1 viruses of clade 2.3.4.4b isolated during the same period in Africa and Europe. We also found evidence for 2 separate introductions of these viruses into Benin.

Published

2022

29. We are underestimating, again, the true burden of H5N1 in humans

Author

Mokhtar Gomaa, Yassmin Moatasim, Ahmed El Taweel, Sara H Mahmoud, Amira S El Rifay, Ahmed Kandeil, Pamela P McKenzie, Richard J Webby, Rabeh El-Shesheny, Mohamed Ahmed Ali, and Ghazi Kayali

Subjects

Medicine (General), R5-920, Infectious and parasitic diseases, RC109-216

Published

2023

30. Spatiotemporal changes in influenza A virus prevalence among wild waterfowl inhabiting the continental United States throughout the annual cycle

Author

Cody M. Kent, Andrew M. Ramey, Joshua T. Ackerman, Justin Bahl, Sarah N. Bevins, Andrew S. Bowman, Walter M. Boyce, Carol J. Cardona, Michael L. Casazza, Troy D. Cline, Susan E. De La Cruz, Jeffrey S. Hall, Nichola J. Hill, Hon S. Ip, Scott Krauss, Jennifer M. Mullinax, Jacqueline M. Nolting, Magdalena Plancarte, Rebecca L. Poulson, Jonathan A. Runstadler, Richard D. Slemons, David E. Stallknecht, Jeffery D. Sullivan, John Y. Takekawa, Richard J. Webby, Robert G. Webster, and Diann J. Prosser

Subjects

Medicine, Science

Abstract

Abstract Avian influenza viruses can pose serious risks to agricultural production, human health, and wildlife. An understanding of viruses in wild reservoir species across time and space is important to informing surveillance programs, risk models, and potential population impacts for vulnerable species. Although it is recognized that influenza A virus prevalence peaks in reservoir waterfowl in late summer through autumn, temporal and spatial variation across species has not been fully characterized. We combined two large influenza databases for North America and applied spatiotemporal models to explore patterns in prevalence throughout the annual cycle and across the continental United States for 30 waterfowl species. Peaks in prevalence in late summer through autumn were pronounced for dabbling ducks in the genera Anas and Spatula, but not Mareca. Spatially, areas of high prevalence appeared to be related to regional duck density, with highest predicted prevalence found across the upper Midwest during early fall, though further study is needed. We documented elevated prevalence in late winter and early spring, particularly in the Mississippi Alluvial Valley. Our results suggest that spatiotemporal variation in prevalence outside autumn staging areas may also represent a dynamic parameter to be considered in IAV ecology and associated risks.

Published

2022

31. covidscreen: a web app and R Package for assessing asymptomatic COVID-19 testing strategies

Author

Jesse Smith, Yilun Sun, Diego R. Hijano, James M. Hoffman, Hana Hakim, Richard J. Webby, Randall T Hayden, Aditya H. Gaur, Gregory T. Armstrong, Motomi Mori, and Li Tang

Subjects

COVID-19, PCR test, Infection prevention, Shiny, Probabilistic model, Public aspects of medicine, RA1-1270

Abstract

Abstract Background COVID-19 has caused over 305 million infections and nearly 5.5 million deaths globally. With complete eradication unlikely, organizations will need to evaluate their risk and the benefits of mitigation strategies, including the effects of regular asymptomatic testing. We developed a web application and R package that provides estimates and visualizations to aid the assessment of organizational infection risk and testing benefits to facilitate decision-making, which combines internal and community information with malleable assumptions. Results Our web application, covidscreen, presents estimated values of risk metrics in an intuitive graphical format. It shows the current expected number of active, primarily community-acquired infections among employees in an organization. It calculates and explains the absolute and relative risk reduction of an intervention, relative to the baseline scenario, and shows the value of testing vaccinated and unvaccinated employees. In addition, the web interface allows users to profile risk over a chosen range of input values. The performance and output are illustrated using simulations and a real-world example from the employee testing program of a pediatric oncology specialty hospital. Conclusions As the COVID-19 pandemic continues to evolve, covidscreen can assist organizations in making informed decisions about whether to incorporate covid test based screening as part of their on-campus risk-mitigation strategy. The web application, R package, and source code are freely available online (see “Availability of data and materials”).

Published

2022

32. An epitope-optimized human H3N2 influenza vaccine induces broadly protective immunity in mice and ferrets

Author

Brianna L. Bullard, Jennifer DeBeauchamp, Matthew J. Pekarek, Erika Petro-Turnquist, Peter Vogel, Richard J. Webby, and Eric A. Weaver

Subjects

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

Abstract

Abstract There is a crucial need for an improved H3N2 influenza virus vaccine due to low vaccine efficacy rates and increased morbidity and mortality associated with H3N2-dominated influenza seasons. Here, we utilize a computational design strategy to produce epitope-optimized, broadly cross-reactive H3 hemagglutinins in order to create a universal H3N2 influenza vaccine. The Epigraph immunogens are designed to maximize the viral population frequency of epitopes incorporated into the immunogen. We compared our Epigraph H3 vaccine to the traditional egg-based inactivated influenza vaccine from 2018–19, FluZone. Epigraph vaccination-induced stronger cross-reactive antibody responses than FluZone against 18 H3N2 viruses isolated from 1968 to 2019 in both mice and ferrets, with protective hemagglutination inhibition titers against 93–100% of the contemporary H3N2 strains compared to only 27% protection measured from FluZone. In addition, Epigraph vaccination-induced strong cross-reactive T-cell immunity which significantly contributes to protection against lethal influenza virus infection. Finally, Epigraph vaccination protected ferrets from influenza disease after challenge with two H3N2 viruses. The superior cross-reactive immunity induced by these Epigraph immunogens supports their development as a universal H3N2 influenza vaccine.

Published

2022

33. Sentinel surveillance for influenza A viruses in Lahore District Pakistan in flu season 2015–2016

Author

Saima Hasan, Richard J. Webby, Muhammad Iqbal, Hamad Bin Rashid, Mansur-ud-Din Ahmad, Jawad Nazir, Jennifer DeBeauchamp, Shakera Sadiq, and Mamoona Chaudhry

Subjects

Influenza, Active surveillance, Influenza like illness (ILI), Severe acute respiratory illness (SARI), Pandemic, Seasonal influenza, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Influenza A virus (IAV) remains an important global public health threat with limited epidemiological information available from low-and-middle-income countries. The major objective of this study was to describe the proportions, temporal and spatial distribution, and demographic and clinical characteristics of IAV positive patients with influenza like illness (ILI) and severe acute respiratory illness (SARI) in Lahore, Pakistan. Methods Prospective surveillance was established in a sentinel hospital from October 2015 to May 2016. All eligible outpatients and inpatients with ILI or SARI were enrolled in the study. Nasal and/or throat swabs were collected along with clinico-epidemiological data. Samples were tested by real-time RT-PCR (rRT-PCR) to identify IAV and subtype. The descriptive analysis of data was done in R software. Results Out of 311 enrolled patients, 284 (91.3%) were ILI and 27 (8.7%) were SARI cases. A distinct peak of ILI and SARI activity was observed in February. Fifty individuals (16%) were positive for IAV with peak positivity observed in December. Of 50 IAV, 15 were seasonal H3N2, 14 were H1N1pdm09 and 21 were unable to be typed. The majority of IAV positive cases (98%) presented with current or history of fever, 88% reported cough and 82% reported sore throat. The most common comorbidities in IAV positive cases were hepatitis C (4%), obesity (4%) and tuberculosis (6%). The highest incidence of patients reporting to the hospital was seen three days post symptoms onset (66/311) with 14 of these (14/66) positive for IAV. Conclusion Distinct trends of ILI, SARI and IAV positive cases were observed which can be used to inform public health interventions (vaccinations, hand and respiratory hygiene) at appropriate times among high-risk groups. We suggest sampling from both ILI and SARI patients in routine surveillance as recommended by WHO.

Published

2022

34. An external quality assessment feasibility study; cross laboratory comparison of haemagglutination inhibition assay and microneutralization assay performance for seasonal influenza serology testing: A FLUCOP study

Author

Joanna Waldock, Carol D. Weiss, Wei Wang, Min Z. Levine, Stacie N. Jefferson, Sammy Ho, Katja Hoschler, Brandon Z. Londt, Elisa Masat, Louise Carolan, Stephany Sánchez-Ovando, Annette Fox, Shinji Watanabe, Miki Akimoto, Aya Sato, Noriko Kishida, Amelia Buys, Lorens Maake, Cardia Fourie, Catherine Caillet, Sandrine Raynaud, Richard J. Webby, Jennifer DeBeauchamp, Rebecca J. Cox, Sarah L. Lartey, Claudia M. Trombetta, Serena Marchi, Emanuele Montomoli, Iván Sanz-Muñoz, José María Eiros, Javier Sánchez-Martínez, Danny Duijsings, and Othmar G. Engelhardt

Subjects

influenza viruses, external quality assessment (EQA), haemagglutination inhibition (HAI), microneutralization (MN), serology, standardization, Immunologic diseases. Allergy, RC581-607

Abstract

IntroductionExternal Quality Assessment (EQA) schemes are designed to provide a snapshot of laboratory proficiency, identifying issues and providing feedback to improve laboratory performance and inter-laboratory agreement in testing. Currently there are no international EQA schemes for seasonal influenza serology testing. Here we present a feasibility study for conducting an EQA scheme for influenza serology methods.MethodsWe invited participant laboratories from industry, contract research organizations (CROs), academia and public health institutions who regularly conduct hemagglutination inhibition (HAI) and microneutralization (MN) assays and have an interest in serology standardization. In total 16 laboratories returned data including 19 data sets for HAI assays and 9 data sets for MN assays.ResultsWithin run analysis demonstrated good laboratory performance for HAI, with intrinsically higher levels of intra-assay variation for MN assays. Between run analysis showed laboratory and strain specific issues, particularly with B strains for HAI, whilst MN testing was consistently good across labs and strains. Inter-laboratory variability was higher for MN assays than HAI, however both assays showed a significant reduction in inter-laboratory variation when a human sera pool is used as a standard for normalization.DiscussionThis study has received positive feedback from participants, highlighting the benefit such an EQA scheme would have on improving laboratory performance, reducing inter laboratory variation and raising awareness of both harmonized protocol use and the benefit of biological standards for seasonal influenza serology testing.

Published

2023

35. mRNA Vaccine Mitigates SARS-CoV-2 Infections and COVID-19

Author

Christina M. Kackos, Sherri L. Surman, Bart G. Jones, Robert E. Sealy, Trushar Jeevan, Christopher J. H. Davitt, Sergei Pustylnikov, Tamarand L. Darling, Adrianus C. M. Boon, Julia L. Hurwitz, Marcelo M. Samsa, and Richard J. Webby

Subjects

SARS-CoV-2, coronavirus, mRNA, vaccines, virology, Microbiology, QR1-502

Abstract

ABSTRACT The novel coronavirus, severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), was identified in December of 2019 and is responsible for millions of infections and deaths across the globe. Vaccination against SARS-CoV-2 has proven effective to contain the spread of the virus and reduce disease. The production and distribution of these vaccines occurred at a remarkable pace, largely through the employment of the novel mRNA platform. However, interruptions in supply chain and high demand for clinical grade reagents have impeded the manufacture and distribution of mRNA vaccines at a time when accelerated vaccine deployment is crucial. Furthermore, the emergence of SARS-CoV-2 variants across the globe continues to threaten the efficacy of vaccines encoding the ancestral virus spike protein. Here, we report results from preclinical studies on mRNA vaccines developed using a proprietary mRNA production process developed by GreenLight Biosciences. Two mRNA vaccines encoding the full-length, nonstabilized SARS-CoV-2 spike protein, GLB-COV2-042 and GLB-COV2-043, containing uridine and pseudouridine, respectively, were evaluated in rodents for their immunogenicity and protection from SARS-CoV-2 challenge with the ancestral strain and the Alpha (B.1.1.7) and Beta (B.1.351) variants. In mice and hamsters, both vaccines induced robust spike-specific binding and neutralizing antibodies, and in mice, vaccines induced significant T cell responses with a clear Th1 bias. In hamsters, both vaccines conferred significant protection following challenge with SARS-CoV-2 as assessed by weight loss, viral load, and virus replication in the lungs and nasopharynx. These results support the development of GLB-COV2-042 and GLB-COV2-043 for clinical use. IMPORTANCE SARS-CoV-2 continues to disrupt everyday life and cause excess morbidity and mortality worldwide. Vaccination has been key to quelling the impact of this respiratory pathogen, and mRNA vaccines have led the charge on this front. However, the emergence of SARS-CoV-2 variants has sparked fears regarding vaccine efficacy. Furthermore, SARS-CoV-2 vaccines continue to be unevenly distributed across the globe. For these reasons and despite the success of emergency authorized and licensed SARS-CoV-2 vaccines, additional vaccines are needed to meet public health demands. The studies presented here are significant as they demonstrate robust protective efficacy of mRNA vaccines developed by GreenLight Biosciences against not only wild-type SARS-CoV-2, but also Alpha and Beta variants. These results support the progression of GreenLight Biosciences SARS-CoV-2 mRNA vaccines to clinical trials as another defense against SARS-CoV-2.

Published

2023

36. Reduced airborne transmission of SARS-CoV-2 BA.1 Omicron virus in Syrian hamsters.

Author

Adrianus C M Boon, Tamarand L Darling, Peter J Halfmann, John Franks, Richard J Webby, Dan H Barouch, Julia R Port, Vincent J Munster, Michael S Diamond, and Yoshihiro Kawaoka

Subjects

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

Published

2022

37. Risk Assessment for Highly Pathogenic Avian Influenza A(H5N6/H5N8) Clade 2.3.4.4 Viruses

Author

Christine H.T. Bui, Denise I.T. Kuok, Hin Wo Yeung, Ka-Chun Ng, Daniel K.W. Chu, Richard J. Webby, John M. Nicholls, J.S. Malik Peiris, Kenrie P.Y. Hui, and Michael C.W. Chan

Subjects

influenza, human airway organoids, risk assessment, tropism, innate host responses, HPAI H5Nx, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

The numerous global outbreaks and continuous reassortments of highly pathogenic avian influenza (HPAI) A(H5N6/H5N8) clade 2.3.4.4 viruses in birds pose a major risk to the public health. We investigated the tropism and innate host responses of 5 recent HPAI A(H5N6/H5N8) avian isolates of clades 2.3.4.4b, e, and h in human airway organoids and primary human alveolar epithelial cells. The HPAI A(H5N6/H5N8) avian isolates replicated productively but with lower competence than the influenza A(H1N1)pdm09, HPAI A(H5N1), and HPAI A(H5N6) isolates from humans in both or either models. They showed differential cellular tropism in human airway organoids; some infected all 4 major epithelial cell types: ciliated cells, club cells, goblet cells, and basal cells. Our results suggest zoonotic potential but low transmissibility of the HPAI A(H5N6/H5N8) avian isolates among humans. These viruses induced low levels of proinflammatory cytokines/chemokines, which are unlikely to contribute to the pathogenesis of severe disease.

Published

2021

38. Robustness of the Ferret Model for Influenza Risk Assessment Studies: a Cross-Laboratory Exercise

Author

Jessica A. Belser, Eric H. Y. Lau, Wendy Barclay, Ian G. Barr, Hualan Chen, Ron A. M. Fouchier, Masato Hatta, Sander Herfst, Yoshihiro Kawaoka, Seema S. Lakdawala, Leo Yi Yang Lee, Gabriele Neumann, Malik Peiris, Daniel R. Perez, Charles Russell, Kanta Subbarao, Troy C. Sutton, Richard J. Webby, Huanliang Yang, and Hui-Ling Yen

Subjects

assay standardization, ferret model, influenza, pandemic risk assessment, transmissibility, Microbiology, QR1-502

Abstract

ABSTRACT Past pandemic influenza viruses with sustained human-to-human transmissibility have emerged from animal influenza viruses. Employment of experimental models to assess the pandemic risk of emerging zoonotic influenza viruses provides critical information supporting public health efforts. Ferret transmission experiments have been utilized to predict the human-to-human transmission potential of novel influenza viruses. However, small sample sizes and a lack of standardized protocols can introduce interlaboratory variability, complicating interpretation of transmission experimental data. To assess the range of variation in ferret transmission experiments, a global exercise was conducted by 11 laboratories using two common stock H1N1 influenza viruses with different transmission characteristics in ferrets. Parameters known to affect transmission were standardized, including the inoculation route, dose, and volume, as well as a strict 1:1 donor/contact ratio for respiratory droplet transmission. Additional host and environmental parameters likely to affect influenza transmission kinetics were monitored and analyzed. The overall transmission outcomes for both viruses across 11 laboratories were concordant, suggesting the robustness of the ferret model for zoonotic influenza risk assessment. Among environmental parameters that varied across laboratories, donor-to-contact airflow directionality was associated with increased transmissibility. To attain high confidence in identifying viruses with moderate to high transmissibility or low transmissibility under a smaller number of participating laboratories, our analyses support the notion that as few as three but as many as five laboratories, respectively, would need to independently perform viral transmission experiments with concordant results. This exercise facilitates the development of a more homogenous protocol for ferret transmission experiments that are employed for the purposes of risk assessment. IMPORTANCE Following detection of a novel virus, rapid characterization efforts (both in vitro and in vivo) are undertaken at numerous laboratories worldwide to evaluate the relative risk posed to human health. Aggregation of these data are critical, but the use of nonstandardized protocols can make interpretation of divergent results a challenge. For evaluation of virus transmissibility, a multifactorial trait which can only be evaluated in vivo, identifying intrinsic levels of variability between groups can improve the utility of these data, as well as ensure that experiments are performed with sufficient replication to ensure high confidence in compiled results. Using the ferret transmission model and two influenza A viruses, we conducted a multicenter standardization exercise to improve the interpretation of transmission data generated during risk assessment activities; this exercise serves as a model for future efforts employing both in vitro and in vivo models against possible pandemic pathogens.

Published

2022

39. Influenza A virus polymerase acidic protein E23G/K substitutions weaken key baloxavir drug-binding contacts with minimal impact on replication and transmission.

Author

Jeremy C Jones, Bogdan Zagribelnyy, Philippe Noriel Q Pascua, Dmitry S Bezrukov, Subrata Barman, Faten Okda, Richard J Webby, Yan A Ivanenkov, and Elena A Govorkova

Subjects

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

Abstract

Baloxavir marboxil (BXM) is approved for treating uncomplicated influenza. The active metabolite baloxavir acid (BXA) inhibits cap-dependent endonuclease activity of the influenza virus polymerase acidic protein (PA), which is necessary for viral transcription. Treatment-emergent E23G or E23K (E23G/K) PA substitutions have been implicated in reduced BXA susceptibility, but their effect on virus fitness and transmissibility, their synergism with other BXA resistance markers, and the mechanisms of resistance have been insufficiently studied. Accordingly, we generated point mutants of circulating seasonal influenza A(H1N1)pdm09 and A(H3N2) viruses carrying E23G/K substitutions. Both substitutions caused 2- to 13-fold increases in the BXA EC50. EC50s were higher with E23K than with E23G and increased dramatically (138- to 446-fold) when these substitutions were combined with PA I38T, the dominant BXA resistance marker. E23G/K-substituted viruses exhibited slightly impaired replication in MDCK and Calu-3 cells, which was more pronounced with E23K. In ferret transmission experiments, all viruses transmitted to direct-contact and airborne-transmission animals, with only E23K+I38T viruses failing to infect 100% of animals by airborne transmission. E23G/K genotypes were predominantly stable during transmission events and through five passages in vitro. Thermostable PA-BXA interactions were weakened by E23G/K substitutions and further weakened when combined with I38T. In silico modeling indicated this was caused by E23G/K altering the placement of functionally important Tyr24 in the endonuclease domain, potentially decreasing BXA binding but at some cost to the virus. These data implicate E23G/K, alone or combined with I38T, as important markers of reduced BXM susceptibility, and such mutants could emerge and/or transmit among humans.

Published

2022

40. Upper Respiratory Infection Drives Clinical Signs and Inflammatory Responses Following Heterologous Challenge of SARS-CoV-2 Variants of Concern in K18 Mice

Author

Jacob H. Nichols, Evan P. Williams, Jyothi Parvathareddy, Xueyuan Cao, Ying Kong, Elizabeth Fitzpatrick, Richard J. Webby, and Colleen B. Jonsson

Subjects

SARS-CoV-2, infection, challenge, reinfection, K18-hACE2 mouse, variants of concern, Microbiology, QR1-502

Abstract

The evolution of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has resulted in the emergence of several variants of concern (VOC) with increased immune evasion and transmissibility. This has motivated studies to assess protection conferred by earlier strains following infection or vaccination to each new VOC. We hypothesized that while NAbs play a major role in protection against infection and disease, a heterologous reinfection or challenge may gain a foothold in the upper respiratory tract (URT) and result in a self-limited viral infection accompanied by an inflammatory response. To test this hypothesis, we infected K18-hACE2 mice with SARS-CoV-2 USA-WA1/2020 (WA1) and, after 24 days, challenged with WA1, Alpha, or Delta. While NAb titers against each virus were similar across all cohorts prior to challenge, the mice challenged with Alpha and Delta showed weight loss and upregulation of proinflammatory cytokines in the URT and lower RT (LRT). Mice challenged with WA1 showed complete protection. We noted increased levels of viral RNA transcripts only in the URT of mice challenged with Alpha and Delta. In conclusion, our results suggested self-limiting breakthrough infections of Alpha or Delta in the URT, which correlated with clinical signs and a significant inflammatory response in mice.

Published

2023

41. Highly Pathogenic Avian Influenza A(H5N6) Virus Clade 2.3.4.4h in Wild Birds and Live Poultry Markets, Bangladesh

Author

Jasmine C.M. Turner, Subrata Barman, Mohammed M. Feeroz, M. Kamrul Hasan, Sharmin Akhtar, Trushar Jeevan, David Walker, John Franks, Patrick Seiler, Nabanita Mukherjee, Lisa Kercher, Pamela McKenzie, Tommy Lam, Rabeh El-Shesheny, and Richard J. Webby

Subjects

highly pathogenic avian influenza, HPAI, H5N6, influenza, Bangladesh, live poultry markets, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

Migratory birds play a major role in spreading influenza viruses over long distances. We report highly pathogenic avian influenza A(H5N6) viruses in migratory and resident ducks in Bangladesh. The viruses were genetically similar to viruses detected in wild birds in China and Mongolia, suggesting migration-associated dissemination of these zoonotic pathogens.

Published

2021

42. Epigraph hemagglutinin vaccine induces broad cross-reactive immunity against swine H3 influenza virus

Author

Brianna L. Bullard, Brigette N. Corder, Jennifer DeBeauchamp, Adam Rubrum, Bette Korber, Richard J. Webby, and Eric A. Weaver

Subjects

Science

Abstract

A range of Influenza vaccines have been linked to induction of adaptive immunity in a number of animal models. Here, the authors utilize a computational design strategy and produce a swine H3 influenza vaccine which shows enhanced efficacy in both murine and porcine infectious disease models.

Published

2021

43. Impact of the COVID-19 nonpharmaceutical interventions on influenza and other respiratory viral infections in New Zealand

Author

Q. Sue Huang, Tim Wood, Lauren Jelley, Tineke Jennings, Sarah Jefferies, Karen Daniells, Annette Nesdale, Tony Dowell, Nikki Turner, Priscilla Campbell-Stokes, Michelle Balm, Hazel C. Dobinson, Cameron C. Grant, Shelley James, Nayyereh Aminisani, Jacqui Ralston, Wendy Gunn, Judy Bocacao, Jessica Danielewicz, Tessa Moncrieff, Andrea McNeill, Liza Lopez, Ben Waite, Tomasz Kiedrzynski, Hannah Schrader, Rebekah Gray, Kayla Cook, Danielle Currin, Chaune Engelbrecht, Whitney Tapurau, Leigh Emmerton, Maxine Martin, Michael G. Baker, Susan Taylor, Adrian Trenholme, Conroy Wong, Shirley Lawrence, Colin McArthur, Alicia Stanley, Sally Roberts, Fahimeh Rahnama, Jenny Bennett, Chris Mansell, Meik Dilcher, Anja Werno, Jennifer Grant, Antje van der Linden, Ben Youngblood, Paul G. Thomas, NPIsImpactOnFlu Consortium, and Richard J. Webby

Subjects

Science

Abstract

New Zealand has been relatively successful in controlling COVID-19 due to implementation of strict non-pharmaceutical interventions. Here, the authors demonstrate a striking decline in reports of influenza and other non-influenza respiratory pathogens over winter months in which the interventions have been in place.

Published

2021

44. Pathogenic assessment of avian influenza viruses in migratory birds

Author

Eun-Ha Kim, Young-ll Kim, Se Mi Kim, Kwang-Min Yu, Mark Anthony B. Casel, Seung-Gyu Jang, Philippe Noriel Q. Pascua, Richard J. Webby, and Young Ki Choi

Subjects

Avian influenza virus, wild birds, pathogenicity, transmission, receptor binding, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

Several subtypes of avian influenza (AI) viruses have caused human infections in recent years; however, there is a severe knowledge gap regarding the capacity of wild bird viruses to infect mammals. To assess the risk of mammalian infection by AI viruses from their natural reservoirs, a panel of isolates from 34 wild birds was examined in animal models. All selected AI virus subtypes were found to predominantly possess Eurasian lineage, although reassortment with North American lineage AI viruses was also noted in some isolates. When used to infect chickens, 20 AI isolates could be recovered from oropharyngeal swabs at 5 days post-infection (dpi) without causing significant morbidity. Similarly, mild to no observable disease was observed in mice infected with these viruses although the majority replicated efficiently in murine lungs. As expected, wild bird AI isolates were found to recognize avian-like receptors, while a few strains also exhibited detectable human-like receptor binding. Selected strains were further tested in ferrets, and 15 out of 20 were found to shed the virus in the upper respiratory tract until 5 dpi. Overall, we demonstrate that a diversity of low-pathogenic AI viruses carried by wild migratory birds have the capacity to infect land-based poultry and mammalian hosts while causing minimal signs of clinical disease. This study reiterates that there is a significant capacity for interspecies transmission of AI viruses harboured by wild aquatic birds. Thus, these viruses pose a significant threat to human health underscoring the need for continued surveillance.

Published

2021

45. Antigenic and molecular characterization of low pathogenic avian influenza A(H9N2) viruses in sub-Saharan Africa from 2017 through 2019

Author

Maxime Fusade-Boyer, Fidélia Djegui, Komla Batawui, Denis K. Byuragaba, Jeremy C. Jones, Fred Wabwire-Mangeni, Bernard Erima, Gladys Atim, Qouilazoni A. Ukuli, Titus Tugume, Koffi Dogno, Komlan Adjabli, Mvibudulu Nzuzi, Rachidatou Adjin, Trushar Jeevan, Adam Rubrum, Wolali Go-Maro, Ghazi Kayali, Pamela McKenzie, Richard J. Webby, and Mariette F. Ducatez

Subjects

Influenza virus, Africa, phylogeny, antigenic cartography, one health, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

Sub-Saharan Africa was historically considered an animal influenza cold spot, with only sporadic highly pathogenic H5 outbreaks detected over the last 20 years. However, in 2017, low pathogenic avian influenza A(H9N2) viruses were detected in poultry in Sub-Saharan Africa. Molecular, phylogenetic, and antigenic characterization of isolates from Benin, Togo, and Uganda showed that they belonged to the G1 lineage. Isolates from Benin and Togo clustered with viruses previously described in Western Africa, whereas viruses from Uganda were genetically distant and clustered with viruses from the Middle East. Viruses from Benin exhibited decreased cross-reactivity with those from Togo and Uganda, suggesting antigenic drift associated with reduced replication in Calu-3 cells. The viruses exhibited mammalian adaptation markers similar to those of the human strain A/Senegal/0243/2019 (H9N2). Therefore, viral genetic and antigenic surveillance in Africa is of paramount importance to detect further evolution or emergence of new zoonotic strains.

Published

2021

46. Host diversity and behavior determine patterns of interspecies transmission and geographic diffusion of avian influenza A subtypes among North American wild reservoir species.

Author

Joseph T Hicks, Kimberly Edwards, Xueting Qiu, Do-Kyun Kim, James E Hixson, Scott Krauss, Richard J Webby, Robert G Webster, and Justin Bahl

Subjects

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

Abstract

Wild birds can carry avian influenza viruses (AIV), including those with pandemic or panzootic potential, long distances. Even though AIV has a broad host range, few studies account for host diversity when estimating AIV spread. We analyzed AIV genomic sequences from North American wild birds, including 303 newly sequenced isolates, to estimate interspecies and geographic viral transition patterns among multiple co-circulating subtypes. Our results show high transition rates within Anseriformes and Charadriiformes, but limited transitions between these orders. Patterns of transition between species were positively associated with breeding habitat range overlap, and negatively associated with host genetic distance. Distance between regions (negative correlation) and summer temperature at origin (positive correlation) were strong predictors of transition between locations. Taken together, this study demonstrates that host diversity and ecology can determine evolutionary processes that underlie AIV natural history and spread. Understanding these processes can provide important insights for effective control of AIV.

Published

2022

47. Induction of broadly reactive influenza antibodies increases susceptibility to autoimmunity

Author

Jocelyn G. Labombarde, Meenu R. Pillai, Marie Wehenkel, Chun-Yang Lin, Rachael Keating, Scott A. Brown, Jeremy Chase Crawford, David C. Brice, Ashley H. Castellaw, Alexandra H. Mandarano, Clifford S. Guy, Juan R. Mejia, Carlessia D. Lewis, Ti-Cheng Chang, Christine M. Oshansky, Sook-San Wong, Richard J. Webby, Mei Yan, Quan–Zhen Li, Tony N. Marion, Paul G. Thomas, and Maureen A. McGargill

Subjects

influenza, autoimmunity, universal influenza vaccine, antibody, Biology (General), QH301-705.5

Abstract

Summary: Infection and vaccination repeatedly expose individuals to antigens that are conserved between influenza virus subtypes. Nevertheless, antibodies recognizing variable influenza epitopes greatly outnumber antibodies reactive against conserved epitopes. Elucidating factors contributing to the paucity of broadly reactive influenza antibodies remains a major obstacle for developing a universal influenza vaccine. Here, we report that inducing broadly reactive influenza antibodies increases autoreactive antibodies in humans and mice and exacerbates disease in four distinct models of autoimmune disease. Importantly, transferring broadly reactive influenza antibodies augments disease in the presence of inflammation or autoimmune susceptibility. Further, broadly reactive influenza antibodies spontaneously arise in mice with defects in B cell tolerance. Together, these data suggest that self-tolerance mechanisms limit the prevalence of broadly reactive influenza antibodies, which can exacerbate disease in the context of additional risk factors.

Published

2022

48. Incidence and Seroprevalence of Avian Influenza in a Cohort of Backyard Poultry Growers, Egypt, August 2015–March 2019

Author

Mokhtar R. Gomaa, Amira S. El Rifay, Dina Abu Zeid, Mona A. Elabd, Eman Elabd, Ahmed Kandeil, Noura M. Abo Shama, Mina N. Kamel, Mohamed A. Marouf, Ahmed Barakat, Samir Refaey, Amal Naguib, Pamela P. McKenzie, Richard J. Webby, Mohamed A. Ali, and Ghazi Kayali

Subjects

avian influenza, Egypt, epidemiology, cohort, incidence, seroprevalence, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

Currently enzootic avian influenza H5N1, H9N2, and H5N8 viruses were introduced into poultry in Egypt in 2006, 2011, and 2016, respectively. Infections with H5N1 and H9N2 were reported among poultry-exposed humans. We followed 2,402 persons from households raising backyard poultry from 5 villages in Egypt during August 2015–March 2019. We collected demographic, exposure, and health condition data and annual serum samples from each participant and obtained swab samples from participants reporting influenza-like illness symptoms. We performed serologic and molecular analyses and detected 4 cases of infection with H5N1 and 3 cases with H9N2. We detected very low seroprevalence of H5N1 antibodies and no H5N8 antibodies among the cohort; up to 11% had H9 antibodies. None of the exposure, health status, or demographic variables were related to being seropositive. Our findings indicate that avian influenza remains a public health risk in Eqypt, but infections may go undetected because of their mild or asymptomatic nature.

Published

2020

49. Birth cohort relative to an influenza A virus's antigenic cluster introduction drives patterns of children's antibody titers.

Author

Andrew F Brouwer, Angel Balmaseda, Lionel Gresh, Mayuri Patel, Sergio Ojeda, Amy J Schiller, Roger Lopez, Richard J Webby, Martha I Nelson, Guillermina Kuan, and Aubree Gordon

Subjects

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

Abstract

An individual's antibody titers to influenza A strains are a result of the complicated interplay between infection history, cross-reactivity, immune waning, and other factors. It has been challenging to disentangle how population-level patterns of humoral immunity change as a function of age, calendar year, and birth cohort from cross-sectional data alone. We analyzed 1,589 longitudinal sera samples from 260 children across three studies in Nicaragua, 2006-16. Hemagglutination inhibition (HAI) titers were determined against four H3N2 strains, one H1N1 strain, and two H1N1pdm strains. We assessed temporal patterns of HAI titers using an age-period-cohort modeling framework. We found that titers against a given virus depended on calendar year of serum collection and birth cohort but not on age. Titer cohort patterns were better described by participants' ages relative to year of likely introduction of the virus's antigenic cluster than by age relative to year of strain introduction or by year of birth. These cohort effects may be driven by a decreasing likelihood of early-life infection after cluster introduction and by more broadly reactive antibodies at a young age. H3N2 and H1N1 viruses had qualitatively distinct cohort patterns, with cohort patterns of titers to specific H3N2 strains reaching their peak in children born 3 years prior to that virus's antigenic cluster introduction and with titers to H1N1 and H1N1pdm strains peaking for children born 1-2 years prior to cluster introduction but not being dramatically lower for older children. Ultimately, specific patterns of strain circulation and antigenic cluster introduction may drive population-level antibody titer patterns in children.

Published

2022

50. An adaptive, asymptomatic SARS-CoV-2 workforce screening program providing real-time, actionable monitoring of the COVID-19 pandemic.

Author

Diego R Hijano, James M Hoffman, Li Tang, Stacey L Schultz-Cherry, Paul G Thomas, Hana Hakim, Richard J Webby, Randall T Hayden, Aditya H Gaur, and St. Jude COVID-19 Employee Screening Program Team

Subjects

Medicine, Science

Abstract

COVID-19 remains a challenge worldwide, and testing of asymptomatic individuals remains critical to pandemic control measures. Starting March 2020, a total of 7497 hospital employees were tested at least weekly for SARS CoV-2; the cumulative incidence of asymptomatic infections was 5.64%. Consistently over a 14-month period half of COVID-19 infections (414 of 820, total) were detected through the asymptomatic screening program, a third of whom never developed any symptoms during follow-up. Prompt detection and isolation of these cases substantially reduced the risk of potential workplace and outside of workplace transmission. COVID-19 vaccinations of the workforce were initiated in December 2020. Twenty-one individuals tested positive after being fully vaccinated (3.9 per 1000 vaccinated). Most (61.9%) remained asymptomatic and in majority (75%) the virus could not be sequenced due to low template RNA levels in swab samples. Further routine testing of vaccinated asymptomatic employees was stopped and will be redeployed if needed; routine testing for those not vaccinated continues. Asymptomatic SARS-CoV-2 testing, as a part of enhanced screening, monitors local dynamics of the COVID-19 pandemic and can provide valuable data to assess the ongoing impact of COVID-19 vaccination and SARS-CoV-2 variants, inform risk mitigation, and guide adaptive, operational planning including titration of screening strategies over time, based on infection risk modifiers such as vaccination.

Published

2022