Your search keyword '"Harm van Bakel"' showing total 5 results

1. Murine Broadly Reactive Antineuraminidase Monoclonal Antibodies Protect Mice from Recent Influenza B Virus Isolates and Partially Inhibit Virus Transmission in the Guinea Pig Model

Author

Jessica Tan, Veronika Chromikova, George O'Dell, Emilia Mia Sordillo, Viviana Simon, Harm van Bakel, Florian Krammer, and Meagan McMahon

Subjects

Influenza, experimental therapeutics, monoclonal antibodies, Microbiology, QR1-502

Abstract

ABSTRACT Current influenza virus vaccines and antivirals have limitations, some of which disproportionately affect their utilization against influenza B viruses. To inform ongoing efforts to address the considerable global burden of influenza B viruses, we previously described five murine monoclonal antibodies that broadly bind conserved epitopes on the neuraminidase of influenza B viruses and protect against lethal challenge in a mouse model when delivered via intraperitoneal injection. Here, we validate the continued relevance of these antibodies by demonstrating that their protective effects extend to lethal challenge with mouse-adapted influenza B viruses recently isolated from humans. We also found that humanization of murine antibodies 1F2 and 4F11 resulted in molecules that retain the ability to protect mice from lethal challenge when administered prophylactically. Intranasal administration as an alternative route of 1F2 delivery revealed no differences in the mouse challenge model compared to intraperitoneal injection, supporting further assessment of this more targeted and convenient administration method. Lastly, we evaluated the potential for intranasal 1F2 administration initiated 1 day after infection to prevent transmission of an influenza B virus between cocaged guinea pigs. Here, we observed a 40% rate of transmission with the 1F2 antibody administered to the infected donor compared to 100% transmission with administration of an irrelevant control antibody. These data suggest that intranasal administration could be a viable route of administration for antibody therapeutics. Collectively, these findings demonstrate the potential of broad antineuraminidase antibodies as therapeutics to prevent and treat infections caused by influenza B viruses. IMPORTANCE The global health burden of influenza B viruses, especially in children, has long been underappreciated. Although two antigenically distinct influenza B virus lineages cocirculated before the coronavirus disease 2019 (COVID-19) pandemic, the commonly used trivalent seasonal vaccines contain antigens from only one influenza B virus, providing limited cross-protection against viruses of the other lineage. Additionally, studies have called into question the clinical effectiveness of the neuraminidase inhibitors that comprise the majority of available antivirals in treating influenza B virus infections. We previously described antibodies that bind broadly to neuraminidases of influenza B viruses across decades of antigenic evolution and potently protect mice against lethal challenge. Here we appraise additional factors to develop these antineuraminidase antibodies as antivirals to prevent and treat infections caused by an extensive range of influenza B viruses. In addition this work assesses recent clinical isolates belonging to the two influenza B virus lineages, finding evidence supporting the development of these antibodies for prophylactic and therapeutic use.

Published

2022

2. Identification and Characterization of Novel Antibody Epitopes on the N2 Neuraminidase

Author

Ericka Kirkpatrick Roubidoux, Meagan McMahon, Juan Manuel Carreño, Christina Capuano, Kaijun Jiang, Viviana Simon, Harm van Bakel, Patrick Wilson, and Florian Krammer

Subjects

Microbiology, QR1-502

Abstract

The influenza virus neuraminidase is an emerging target for universal influenza virus vaccines. However, in contrast to influenza virus hemagglutinin, we know little about antibody epitopes and antigenic sites on the neuraminidase. Characterizing and defining these sites is aiding vaccine development and helping to understand antigenic drift of NA.

Published

2021

3. Evidence of Intercontinental Spread and Uncommon Variants of Low-Pathogenicity Avian Influenza Viruses in Ducks Overwintering in Guatemala

Author

Ana S. Gonzalez-Reiche, Martha I. Nelson, Mathew Angel, Maria L. Müller, Lucia Ortiz, Jayeeta Dutta, Harm van Bakel, Celia Cordon-Rosales, and Daniel R. Perez

Subjects

Central America, avian viruses, host range, viral evolution, Microbiology, QR1-502

Abstract

ABSTRACT Over a hundred species of aquatic birds overwinter in Central America’s wetlands, providing opportunities for the transmission of influenza A viruses (IAVs). To date, limited IAV surveillance in Central America hinders our understanding of the evolution and ecology of IAVs in migratory hosts within the Western Hemisphere. To address this gap, we sequenced the genomes of 68 virus isolates obtained from ducks overwintering along Guatemala’s Pacific Coast during 2010 to 2013. High genetic diversity was observed, including 9 hemagglutinin (HA) subtypes, 7 neuraminidase (NA) subtypes, and multiple avian IAV lineages that have been detected at low levels (

Published

2017

4. Identification and Characterization of Novel Antibody Epitopes on the N2 Neuraminidase

Author

Viviana Simon, Meagan McMahon, Florian Krammer, Patrick C. Wilson, Ericka Kirkpatrick Roubidoux, Christina Capuano, Kaijun Jiang, Harm van Bakel, and Juan Manuel Carreño

Subjects

medicine.drug_class, viruses, Hemagglutinin (influenza), Neuraminidase, Hemagglutinin Glycoproteins, Influenza Virus, Biology, Monoclonal antibody, Antibodies, Viral, Microbiology, Virus, Epitope, Antigenic drift, Madin Darby Canine Kidney Cells, 03 medical and health sciences, Viral Proteins, Dogs, Antigen, medicine, Animals, Humans, Molecular Biology, Antigens, Viral, 030304 developmental biology, mAb, 0303 health sciences, 030306 microbiology, Influenza A Virus, H3N2 Subtype, virus diseases, Antibodies, Monoclonal, N2, epitopes, Virology, QR1-502, A549 Cells, Influenza Vaccines, Mutation, biology.protein, Antibody, influenza, Research Article

Abstract

The influenza virus neuraminidase (NA) is becoming a focus for novel vaccine designs. However, the epitopes of human anti-NA antibodies have been poorly defined. Using a panel of 10 anti-N2 monoclonal antibodies (MAbs) that bind the H3N2 virus A/Switzerland/9715293/2013, we generated five escape mutant viruses. These viruses contained mutations K199E/T, E258K, A272D, and S331N. We found that mutations at K199 and E258 had the largest impact on MAb binding, NA inhibition and neutralization activity. In addition, a natural isolate from the 2017-2018 season was found to contain the E258K mutation and was resistant to numerous antibodies tested. The mutation S331N, was identified in virus passaged in the presence of antibody; however, it had little impact on MAb activity and greatly decreased viral fitness. This information aids in identifying novel human MAb epitopes on the N2 and helps with the detection of antigenically drifted NAs. IMPORTANCE The influenza virus neuraminidase is an emerging target for universal influenza virus vaccines. However, in contrast to influenza virus hemagglutinin, we know little about antibody epitopes and antigenic sites on the neuraminidase. Characterizing and defining these sites is aiding vaccine development and helping to understand antigenic drift of NA.

Published

2021

5. Evidence of Intercontinental Spread and Uncommon Variants of Low-Pathogenicity Avian Influenza Viruses in Ducks Overwintering in Guatemala

Author

Martha I. Nelson, Harm van Bakel, Celia Cordon-Rosales, Ana S. Gonzalez-Reiche, Daniel R. Perez, Jayeeta Dutta, Lucia Ortiz, Mathew Angel, and Maria L. Müller

Subjects

0301 basic medicine, 030106 microbiology, Bird migration, lcsh:QR1-502, Zoology, host range, Ecological and Evolutionary Science, Biology, medicine.disease_cause, Microbiology, lcsh:Microbiology, 03 medical and health sciences, viral evolution, Phylogenetics, medicine, Clade, Molecular Biology, avian viruses, Overwintering, Genetic diversity, Ecology, Outbreak, Central America, Influenza A virus subtype H5N1, QR1-502, 030104 developmental biology, Viral evolution, Research Article

Abstract

Recent outbreaks of highly pathogenic H7N3, H5Nx, and H7N8 avian influenza viruses in North America were introduced by migratory birds, underscoring the importance of understanding how wild birds contribute to the dissemination and evolution of IAVs in nature. At least four of the main IAV duck host species in North America migrate through or overwinter within a narrow strip of Central America, providing opportunities for diverse IAV lineages to mix and exchange gene segments. By obtaining whole-genome sequences of 68 IAV isolates collected from migratory waterfowl in Guatemala (2010 to 2013), the largest data set available from Central America to date, we detected extensive viral diversity, including gene variants rarely found in North America and gene segments of Eurasian origin. Our findings highlight the need for increased IAV surveillance across the geographical span of bird migration flyways, including Neotropical regions that have been vastly undersampled to date., Over a hundred species of aquatic birds overwinter in Central America’s wetlands, providing opportunities for the transmission of influenza A viruses (IAVs). To date, limited IAV surveillance in Central America hinders our understanding of the evolution and ecology of IAVs in migratory hosts within the Western Hemisphere. To address this gap, we sequenced the genomes of 68 virus isolates obtained from ducks overwintering along Guatemala’s Pacific Coast during 2010 to 2013. High genetic diversity was observed, including 9 hemagglutinin (HA) subtypes, 7 neuraminidase (NA) subtypes, and multiple avian IAV lineages that have been detected at low levels (

Published

2017